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class="text-center my-2 sm:my-4 " > <ins class="adsbygoogle adsense h-ad3 " data-ad-client="ca-pub-9900459938067640" style="display:block" data-ad-format="auto" data-ad-slot="9194510535" data-full-width-responsive="true" data-adtest="off" > </ins> <script> (adsbygoogle = window.adsbygoogle || []).push({}); </script> </div> <article class="article-detail"> <section class="entry-content paragraph"><div><p>INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER http://www.elsevier.nl/inca/publications/store/2/1/0/ Volume 47, Issue 3, Pages 419-643 (January 2004) 1.</p><p> 2.</p><p> 3.</p><p> 4.</p><p> 5.</p><p> 6.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 7.</p><p> 8.</p><p> 9.</p><p> Mixed convection heat and mass transfer along a vertical wavy surface, Pages 419428 Jer-Huan Jang and Wei-Mon Yan Abstract | Full Text + Links | PDF (1163 K)</p><p> A numerical analysis of buoyancy-driven melting and freezing, Pages 429-436 T. J. Scanlon and M. T. Stickland Abstract | Full Text + Links | PDF (693 K)</p><p> Large eddy simulation of heated vertical annular pipe flow in fully developed turbulent mixed convection, Pages 437-446 Joon Sang Lee, Xiaofeng Xu and Richard H. Pletcher Abstract | Full Text + Links | PDF (343 K)</p><p> An inverse biotechnology problem in estimating the optical diffusion and absorption coefficients of tissue, Pages 447-457 Cheng-Hung Huang and Chu-Ya Huang Abstract | Full Text + Links | PDF (333 K)</p><p> Heat transfer flow in a parallel-plate channel by inserting in parallel impermeable sheets for multi-pass coolers or heaters, Pages 459-476 Chii-Dong Ho, Yu-Chuan Tsai and Jr-Wei Tu Abstract | Full Text + Links | PDF (689 K)</p><p> Diffusivity measurement of semi-transparent media: model of the coupled transient heat transfer and experiments on glass, silica glass and zinc selenide, Pages 477-487 M. Lazard, S. André and D. Maillet Abstract | Full Text + Links | PDF (700 K)</p><p> Heat transfer and wall pressure characteristics of a twin premixed butane/air flame jets, Pages 489-500 L. L. Dong, C. W. Leung and C. S. Cheung Abstract | Full Text + Links | PDF (763 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Effects of interface wettability on microscale flow by molecular dynamics simulation, Pages 501-513 Gyoko Nagayama and Ping Cheng Abstract | Full Text + Links | PDF (742 K)</p><p> Nonlinear macrokinetics of heat and mass transfer and chemical or electrochemical reactions, Pages 515-526 Stanislaw Sieniutycz Abstract | Full Text + Links | PDF (346 K)</p><p> Stanislaw Sieniutycz Abstract | Full Text + Links | PDF (346 K)</p><p> 10.</p><p> 11.</p><p> 12.</p><p> 13.</p><p> 14.</p><p> 15.</p><p> 16.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 17.</p><p> Modeling of pressure and shear-driven flows in open rectangular microchannels, Pages 527-538 S. W. Tchikanda, R. H. Nilson and S. K. Griffiths Abstract | Full Text + Links | PDF (405 K)</p><p> The role of free-surface turbulence and surfactants in air–water gas transfer, Pages 539-553 S. P. McKenna and W. R. McGillis Abstract | Full Text + Links | PDF (461 K)</p><p> Monte Carlo modeling of radiative transfer in a turbulent sooty flame, Pages 555572 Lionel Tessé, Francis Dupoirieux and Jean Taine Abstract | Full Text + Links | PDF (2654 K)</p><p> Application of a new finite integral transform method to the wave model of conduction, Pages 573-588 P. Duhamel Abstract | Full Text + Links | PDF (477 K)</p><p> Prediction of friction factors and heat transfer coefficients for turbulent flow in corrugated tubes combined with twisted tape inserts. Part 1: friction factors, Pages 589-599 Ventsislav Zimparov Abstract | Full Text + Links | PDF (416 K)</p><p> Dissolution and solutal convection in partially miscibile liquid systems, Pages 601612 Raffaele Savino and Marcello Lappa Abstract | Full Text + Links | PDF (862 K)</p><p> A local thermal non-equilibrium model for two-phase flows with phase-change in porous media, Pages 613-639 F. Duval, F. Fichot and M. Quintard Abstract | Full Text + Links | PDF (934 K)</p><p> Comments on "The onset of transient convection in bottom heated porous media", by K.-K. Tan, T. Sam and H. Jamaludin: Rayleigh and Biot numbers, Pages 641643 D. A. Nield Abstract | Full Text + Links | PDF (228 K)</p><p> Volume 47, Issue 2, Pages 191-417 (January 2004)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 1.</p><p> 2.</p><p> 3.</p><p> 4.</p><p> 5.</p><p> 6.</p><p> 7.</p><p> 8.</p><p> 9.</p><p> Transverse eigenproblem of steady-state heat conduction for multi-dimensional two-layered slabs with automatic computation of eigenvalues, Pages 191-201 F. de Monte Abstract | Full Text + Links | PDF (330 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Optimal distribution of discrete heat sources on a wall with natural convection, Pages 203-214 A. K. da Silva, S. Lorente and A. Bejan Abstract | Full Text + Links | PDF (365 K)</p><p> Joule heating effect on electroosmotic flow and mass species transport in a microcapillary, Pages 215-227 G. Y. Tang, C. Yang, J. C. Chai and H. Q. Gong Abstract | Full Text + Links | PDF (535 K)</p><p> Heat transfer in rectangular channels with transverse and V-shaped broken ribs, Pages 229-243 Giovanni Tanda Abstract | Full Text + Links | PDF (783 K)</p><p> Influence of shaped injection holes on turbine blade leading edge film cooling, Pages 245-256 Youn J. Kim and S. -M. Kim Abstract | Full Text + Links | PDF (748 K)</p><p> Three-dimensional numerical simulation of convection and radiation in a differentially heated cavity using the discrete ordinates method, Pages 257-269 G. Colomer, M. Costa, R. Cònsul and A. Oliva Abstract | Full Text + Links | PDF (693 K)</p><p> Numerical study on supersonic combustion with cavity-based fuel injection, Pages 271-286 Kyung Moo Kim, Seung Wook Baek and Cho Young Han Abstract | Full Text + Links | PDF (2115 K)</p><p> Heat transfer in a swinging rectangular duct with two opposite walls roughened by 45° staggered ribs, Pages 287-305 S. W. Chang, L. M. Su and T. L. Yang Abstract | Full Text + Links | PDF (572 K)</p><p> Volumetric interfacial area prediction in upward bubbly two-phase flow, Pages 307328 Wei Yao and Christophe Morel Abstract | Full Text + Links | PDF (512 K)</p><p> 10.</p><p> 11.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 12.</p><p> 13.</p><p> 14.</p><p> 15.</p><p> 16.</p><p> 17.</p><p> 18.</p><p> Continuously distributed sensors for steady-state temperature profile measurements: main principles and numerical algorithm, Pages 329-340 Yu. K. Evdokimov and S. Martemianov Abstract | Full Text + Links | PDF (344 K)</p><p> Numerical investigation of heat transfer characteristics of the heated blocks in the channel with a transversely oscillating cylinder, Pages 341-351 Wu-Shung Fu and Bao-Hong Tong Abstract | Full Text + Links | PDF (728 K)</p><p> Experimental shell-side heat transfer and pressure drop in gas flow for spiralwound LNG heat exchanger, Pages 353-361 Bengt O. Neeraas, Arne O. Fredheim and Bjørn Aunan Abstract | Full Text + Links | PDF (491 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3D unsteady numerical analysis of conjugate heat transport and turbulent/laminar flows in LEC growth of GaAs crystals, Pages 363-371 O. V. Smirnova and V. V. Kalaev Abstract | Full Text + Links | PDF (1617 K)</p><p> Direct identification of absorption and scattering coefficients and phase function of a porous medium by a Monte Carlo technique, Pages 373-383 M. Tancrez and J. Taine Abstract | Full Text + Links | PDF (358 K)</p><p> Prediction of friction factors and heat transfer coefficients for turbulent flow in corrugated tubes combined with twisted tape inserts. Part 2: heat transfer coefficients, Pages 385-393 Ventsislav Zimparov Abstract | Full Text + Links | PDF (398 K)</p><p> Simplified models for coupled heat and mass transfer in falling-film absorbers, Pages 395-406 Md. Raisul Islam, N. E. Wijeysundera and J. C. Ho Abstract | Full Text + Links | PDF (387 K)</p><p> Pool boiling heat transfer experiments in silica–water nano-fluids, Pages 407-411 Peter Vassallo, Ranganathan Kumar and Stephen D'Amico Abstract | Full Text + Links | PDF (384 K)</p><p> On void fraction distribution during two-phase boiling flow instability, Pages 413417 G. H. Yeoh, J. Y. Tu and Y. Li Abstract | Full Text + Links | PDF (334 K)</p><p> Volume 47, Issue 1, Pages 1-190 (January 2004)</p><p> .</p><p> 2.</p><p> 3.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 4.</p><p> A one-dimensional numerical study of the salt diffusion in a salinity-gradient solar pond, Pages 1-10 Celestino Angeli and Erminia Leonardi SummaryPlus | Full Text + Links | PDF (368 K)</p><p> Experimental analysis of the use of wet porous media for thermal protection against high intensity heat fluxes, Pages 11-19 A. R. Figueiredo and J. J. Costa SummaryPlus | Full Text + Links | PDF (530 K)</p><p> A Fourier transform based data reduction method for the evaluation of the local convective heat transfer coefficient, Pages 21-30 G. E. Cossali SummaryPlus | Full Text + Links | PDF (224 K)</p><p> Heat transfer characteristics of a boundary-layer flow driven by a power-law shear over a semi-infinite flat plate, Pages 31-34 E. Magyari, B. Keller and I. Pop SummaryPlus | Full Text + Links | PDF (101 K)</p><p> 5.</p><p> The LDA study of flow gas-dynamics in a vortex chamber, Pages 35-42 E. P. Volchkov, V. P. Lebedev and V. V. Lukashov SummaryPlus | Full Text + Links | PDF (403 K)</p><p> 6.</p><p> Effects of a first-order chemical reaction on turbulent mass transfer, Pages 43-61 Bojan M. Mitrovic and Dimitrios V. Papavassiliou SummaryPlus | Full Text + Links | PDF (535 K)</p><p> 7.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Estimation of the nucleation probability in emulsions, Pages 63-74 S. Gibout, M. Strub and J. P. Dumas SummaryPlus | Full Text + Links | PDF (211 K)</p><p> 8.</p><p> Explicit analytic solution for similarity boundary layer equations, Pages 75-85 Shi-Jun Liao and Ioan Pop SummaryPlus | Full Text + Links | PDF (235 K)</p><p> 9.</p><p> 10.</p><p> Heat and mass transfer in a square microchannel with asymmetric heating, Pages 87-99 P. van Male, M. H. J. M. de Croon, R. M. Tiggelaar, A. van den Berg and J. C. Schouten SummaryPlus | Full Text + Links | PDF (306 K)</p><p> Solution of the radiative integral transfer equations in rectangular participating and isotropically scattering inhomogeneous medium, Pages 101-109 Zekeriya Altaç and Mesut Tekkalmaz SummaryPlus | Full Text + Links | PDF (134 K)</p><p> 11.</p><p> 12.</p><p> 13.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 14.</p><p> 15.</p><p> 16.</p><p> 17.</p><p> Dendritic fins optimization for a coaxial two-stream heat exchanger, Pages 111-124 J. Bonjour, L. A. O. Rocha, A. Bejan and F. Meunier SummaryPlus | Full Text + Links | PDF (317 K)</p><p> The effect of the macroscopic local inertial term on the non-Newtonian fluid flow in channels filled with porous medium, Pages 125-133 M. A. Al-Nimr and T. K. Aldoss SummaryPlus | Full Text + Links | PDF (133 K)</p><p> Numerical and experimental analysis of chemical dehydration, heat and mass transfers in a concrete hollow cylinder submitted to high temperatures, Pages 135147 S. Dal Pont and A. Ehrlacher SummaryPlus | Full Text + Links | PDF (178 K)</p><p> Numerical study of cavitating flow characteristics of liquid helium in a pipe, Pages 149-163 Jun Ishimoto and Kenjiro Kamijo SummaryPlus | Full Text + Links | PDF (1171 K)</p><p> Evaporative cooling of water in a mechanical draft cooling tower, Pages 165-177 S. P. Fisenko, A. A. Brin and A. I. Petruchik SummaryPlus | Full Text + Links | PDF (201 K)</p><p> Effect of interphase matter transfer on condensation on low-finned tubes––a theoretical investigation, Pages 179-184 H. S. Wang and J. W. Rose SummaryPlus | Full Text + Links | PDF (137 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Effects of solid layer thickness and nominal composition on double-diffusive instabilities during solidification of a binary alloy cooled from the top, Pages 185190 Suman Chakraborty and Pradip Dutta SummaryPlus | Full Text + Links | PDF (120 K)</p><p> Volume 46, Issue 26, Pages 4985-5182 (December 2003) 2.</p><p> 3.</p><p> Professor D. Brian Spalding on his eightieth birthday, Pages 4987-4988 Suhas V. Patankar, J. P. Hartnett and W. J. Minkowycz Abstract | Full Text + Links | PDF (49 K)</p><p> The role of porous media in modeling flow and heat transfer in biological tissues, Pages 4989-5003 A. -R. A. Khaled and K. Vafai Abstract | PDF (205 K)</p><p> 4.</p><p> 5.</p><p> 6.</p><p> 7.</p><p> 8.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 9.</p><p> 10.</p><p> 11.</p><p> 12.</p><p> 13.</p><p> Thermal-fluid flow in parallel boards with heat generating blocks, Pages 5005-5015 Takahiro Furukawa and Wen-Jei Yang Abstract | Full Text + Links | PDF (654 K)</p><p> Non-thermal equilibrium melting of granular packed bed in horizontal forced convection. Part I: experiment, Pages 5017-5030 Y. L. Hao and Y. -X. Tao Abstract | Full Text + Links | PDF (697 K)</p><p> Non-thermal equilibrium melting of granular packed bed in horizontal forced convection. Part II: numerical simulation, Pages 5031-5044 Y. L. Hao and Y. -X. Tao Abstract | Full Text + Links | PDF (1517 K)</p><p> The characteristics of turbulent flow and convection in concentric circular annuli. Part I: flow, Pages 5045-5057 Masayuki Kaneda, Bo Yu, Hiroyuki Ozoe and Stuart W. Churchill Abstract | Full Text + Links | PDF (290 K)</p><p> Study on the interfacial evaporation of aqueous solution of SDS surfactant selfassembly monolayer, Pages 5059-5064 J. T. Zhang and B. X. Wang Abstract | Full Text + Links | PDF (99 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Thermal instability of viscoelastic fluids in porous media, Pages 5065-5072 Min Chan Kim, Sang Baek Lee, Sin Kim and Bum Jin Chung Abstract | Full Text + Links | PDF (760 K)</p><p> The influence of preferential diffusion and stretch on the burning intensity of a curved flame front with fuel spray, Pages 5073-5085 Shuhn-Shyurng Hou and Jiann-Chang Lin Abstract | Full Text + Links | PDF (608 K)</p><p> Quasi-homogeneous boiling nucleation on a small spherical heater in microgravity, Pages 5087-5097 Ho Sung Lee, Herman Merte, Jr. , Gerold Picker and Johannes Straub Abstract | Full Text + Links | PDF (199 K)</p><p> Effects of pore size distribution and fiber diameter on the coupled heat and liquid moisture transfer in porous textiles, Pages 5099-5111 Qingyong Zhu and Yi Li Abstract | Full Text + Links | PDF (584 K)</p><p> Turbulent flow in a channel occupied by a porous layer considering the stress jump at the interface, Pages 5113-5121 Renato A. Silva and Marcelo J. S. de Lemos Abstract | Full Text + Links | PDF (245 K)</p><p> Abstract | Full Text + Links | PDF (245 K)</p><p> 14.</p><p> 15.</p><p> 16.</p><p> 17.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 18.</p><p> 19.</p><p> Simulation of micro-scale interaction between ice and biological cells, Pages 51235136 L. Mao, H. S. Udaykumar and J. O. M. Karlsson Abstract | Full Text + Links | PDF (613 K)</p><p> Thermal wave propagation in a bi-layered composite sphere due to a sudden temperature change on the outer surface, Pages 5137-5144 Chin-Shan Tsai and Chen-I Hung Abstract | Full Text + Links | PDF (250 K)</p><p> A new minimum volume straight cooling fin taking into account the "length of arc", Pages 5145-5152 Leonid Hanin and Antonio Campo Abstract | Full Text + Links | PDF (143 K)</p><p> High-speed visualisation of nucleate boiling in vertical annular flow, Pages 51535160 J. R. Barbosa, Jr. , G. F. Hewitt and S. M. Richardson Abstract | Full Text + Links | PDF (512 K)</p><p> Enhancing heat transfer ability of drag reducing surfactant solutions with static mixers and honeycombs, Pages 5161-5173 Yunying Qi, Yasuo Kawaguchi, Richard N. Christensen and Jacques L. Zakin Abstract | Full Text + Links | PDF (265 K)</p><p> Non-isothermal steady-state diffusion within Glaser's condensation model, Pages 5175-5182 T. Ficker Abstract | Full Text + Links | PDF (201 K)</p><p> Volume 46, Issue 25, Pages 4755-4983 (December 2003) 1.</p><p> 2.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3.</p><p> Species heat and mass transfer in a human upper airway model, Pages 4755-4768 Z. Zhang and C. Kleinstreuer Abstract | Full Text + Links | PDF (686 K)</p><p> Heat flow rate at a bore-face and temperature in the multi-layer media surrounding a borehole, Pages 4769-4778 Vladimir Chugunov, Sergei Fomin and Toshiyuki Hashida Abstract | Full Text + Links | PDF (236 K)</p><p> Convective boiling heat transfer and two-phase flow characteristics inside a small horizontal helically coiled tubing once-through steam generator, Pages 4779-4788 Liang Zhao, Liejin Guo, Bofeng Bai, Yucheng Hou and Ximin Zhang Abstract | Full Text + Links | PDF (354 K)</p><p> 4.</p><p> 5.</p><p> 6.</p><p> 7.</p><p> 8.</p><p> 9.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 10.</p><p> 11.</p><p> 12.</p><p> 13.</p><p> A numerical simulation of pool boiling using CAS model, Pages 4789-4797 Jing Yang, Liejin Guo and Ximin Zhang Abstract | Full Text + Links | PDF (483 K)</p><p> Effect of magnetic field on g-jitter induced convection and solute striation during solidification in space, Pages 4799-4811 K. Li, B. Q. Li and H. C. de Groh Abstract | Full Text + Links | PDF (461 K)</p><p> An explicit solution for the combined heat and mass transfer by natural convection from a vertical wall in a non-Darcy porous medium, Pages 4813-4822 Chun Wang, Shijun Liao and Jimao Zhu Abstract | Full Text + Links | PDF (169 K)</p><p> Low Reynolds number mixed convection in vertical tubes with uniform wall heat flux, Pages 4823-4833 A. Behzadmehr, N. Galanis and A. Laneville Abstract | Full Text + Links | PDF (224 K)</p><p> Drift-flux model for downward two-phase flow, Pages 4835-4844 Hiroshi Goda, Takashi Hibiki, Seungjin Kim, Mamoru Ishii and Jennifer Uhle Abstract | Full Text + Links | PDF (269 K)</p><p> Heat transfer of impinging air and liquid nitrogen mist jet onto superheated flat surface, Pages 4845-4862 L. M. Su, S. W. Chang, C. I. Yeh and Y. C. Hsu Abstract | Full Text + Links | PDF (554 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Non-Darcian thermal stability of a heat generating fluid in a porous annulus, Pages 4863-4875 S. Saravanan and P. Kandaswamy Abstract | Full Text + Links | PDF (310 K)</p><p> Characteristics and correlations of VOC emissions from building materials, Pages 4877-4883 Yinping Zhang and Ying Xu Abstract | Full Text + Links | PDF (245 K)</p><p> Fluid dynamical view of pressure checkerboarding problem and smoothing pressure correction on meshes with colocated variables, Pages 4885-4898 A. W. Date Abstract | Full Text + Links | PDF (224 K)</p><p> Theoretical and numerical analysis of convective heat transfer in the rotating helical pipes, Pages 4899-4909 Huajun Chen, Benzhao Zhang and Jianfeng Ma Abstract | Full Text + Links | PDF (407 K)</p><p> Huajun Chen, Benzhao Zhang and Jianfeng Ma Abstract | Full Text + Links | PDF (407 K)</p><p> 14.</p><p> 15.</p><p> 16.</p><p> 17.</p><p> 18.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 19.</p><p> 20.</p><p> 21.</p><p> LDV assisted bubble dynamic parameter measurements from two enhanced tubes boiling in saturated R-134a, Pages 4911-4923 Shou-Shing Hsieh, Wen-Chuan Lai and Huang-Hsiu Tsai Abstract | Full Text + Links | PDF (539 K)</p><p> Study of free convective heat transfer from horizontal conic, Pages 4925-4934 W. M. Lewandowski and S. Leble Abstract | Full Text + Links | PDF (384 K)</p><p> One-dimensional drift-flux model and constitutive equations for relative motion between phases in various two-phase flow regimes, Pages 4935-4948 Takashi Hibiki and Mamoru Ishii Abstract | Full Text + Links | PDF (268 K)</p><p> Interfacial area transport of vertical upward bubbly two-phase flow in an annulus, Pages 4949-4962 Takashi Hibiki, Ye Mi, Rong Situ and Mamoru Ishii Abstract | Full Text + Links | PDF (498 K)</p><p> Numerical simulation of laser-induced transient temperature field in filmsubstrate system by finite element method, Pages 4963-4968 B. Q. Xu, Z. H. Shen, J. Lu, X. W. Ni and S. Y. Zhang Abstract | Full Text + Links | PDF (211 K)</p><p> Suppression of Marangoni convection of silicon melt by a non-contaminating method, Pages 4969-4973 Jie Li, Mingwei Li, Wenrui Hu and Danling Zeng Abstract | Full Text + Links | PDF (146 K)</p><p> Limiting cross-flow velocity below which heat flux is determined by natural convection laws, Pages 4975-4978 H. Veeraraghava Raju and R. Narasimha Abstract | Full Text + Links | PDF (103 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Effect of viscous dissipation and pressure stress work in natural convection along a vertical isothermal plate. New results, Pages 4979-4983 A. Pantokratoras Abstract | Full Text + Links | PDF (108 K)</p><p> Volume 46, Issue 24, Pages 4561-4754 (November 2003) 1.</p><p> Mechanism of gas absorption enhancement in a slurry droplet containing reactive, sparingly soluble microparticles, Pages 4561-4571 M. K. Akbar, J. Yan and S. M. Ghiaasiaan Abstract | Full Text + Links | PDF (556 K)</p><p> Abstract | Full Text + Links | PDF (556 K)</p><p> 2.</p><p> 3.</p><p> 4.</p><p> 5.</p><p> 6.</p><p> 7.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 8.</p><p> 9.</p><p> 10.</p><p> Theoretical and experimental studies of a bi-metallic heat switch for space applications, Pages 4573-4586 Fernando H. Milanez and Marcia B. H. Mantelli Abstract | Full Text + Links | PDF (550 K)</p><p> Flow and heat transfer characteristics of the evaporating extended meniscus in a micro-capillary channel, Pages 4587-4594 Kyoungwoo Park and Kwan-Soo Lee Abstract | Full Text + Links | PDF (192 K)</p><p> Effective diffusivity and water-saturation distribution in single- and two-layer PEMFC diffusion medium, Pages 4595-4611 Jin Hyun Nam and Massoud Kaviany Abstract | Full Text + Links | PDF (500 K)</p><p> Calcium carbonate scaling in a plate heat exchanger in the presence of particles, Pages 4613-4627 N. Andritsos and A. J. Karabelas Abstract | Full Text + Links | PDF (934 K)</p><p> Turbulent convection of air-cooled rectangular duct with surface-mounted crossribs, Pages 4629-4638 T. T. Wong, C. W. Leung, Z. Y. Li and W. Q. Tao Abstract | Full Text + Links | PDF (276 K)</p><p> Characteristics of vortex flow in a low speed air jet impinging onto a heated disk in a vertical cylindrical chamber, Pages 4639-4656 J. C. Hsieh, T. C. Cheng and T. F. Lin Abstract | Full Text + Links | PDF (1183 K)</p><p> An impingement cooling on a flat surface by using circular jet with longitudinal swirling strips, Pages 4657-4667 Mao-Yu Wen and Kuen-Jang Jang Abstract | Full Text + Links | PDF (325 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Analysis of film condensation heat transfer inside a vertical micro tube with consideration of the meniscus draining effect, Pages 4669-4679 X. Z. Du and T. S. Zhao Abstract | Full Text + Links | PDF (205 K)</p><p> A new stochastic approach to transient heat conduction modeling with uncertainty, Pages 4681-4693 Dongbin Xiu and George Em Karniadakis Abstract | Full Text + Links | PDF (363 K)</p><p> 11.</p><p> 12.</p><p> 13.</p><p> 14.</p><p> 15.</p><p> 16.</p><p> 17.</p><p> Study on boiling heat transfer in liquid saturated particle bed and fluidized bed, Pages 4695-4702 Mingheng Shi, Yanbing Zhao and Zhongliang Liu Abstract | Full Text + Links | PDF (270 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Evaporation of water by free or mixed convection into humid air and superheated steam, Pages 4703-4715 C. Debbissi, J. Orfi and S. Ben Nasrallah Abstract | Full Text + Links | PDF (775 K)</p><p> Interaction of a moving shock wave with a two-phase reacting medium, Pages 4717-4732 Jun Sung Park and Seung Wook Baek Abstract | Full Text + Links | PDF (1723 K)</p><p> Non-isothermal flow of a polymeric fluid past a submerged circular cylinder, Pages 4733-4739 G. H. Wu, B. Y. Wu, S. H. Ju and C. C. Wu Abstract | Full Text + Links | PDF (227 K)</p><p> Evaporation model of a single hydrocarbon fuel droplet due to ambient turbulence at intermediate Reynolds numbers, Pages 4741-4745 J. -S. Wu, K. -H. Hsu, P. -M. Kuo and H. -J. Sheen Abstract | Full Text + Links | PDF (119 K)</p><p> Thermal convection in a horizontal porous layer with spatially periodic boundary temperatures: small Ra flow, Pages 4747-4750 Joo-Sik Yoo and William W. Schultz Abstract | Full Text + Links | PDF (174 K)</p><p> Numerical analysis of heat flow in contact heat transfer, Pages 4751-4754 Syed M. S. Wahid Abstract | Full Text + Links | PDF (87 K)</p><p> Volume 46, Issue 23, Pages 4355-4559 (November 2003) 1.</p><p> Heat transfer bibliography - Japanese works 2001, Pages 4355-4368 PDF (135 K)</p><p> 2.</p><p> Heat transfer bibliography - Japanese works 2002, Pages 4369-4380 PDF (130 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3.</p><p> 4.</p><p> 5.</p><p> 6.</p><p> 7.</p><p> 8.</p><p> 9.</p><p> 10.</p><p> 11.</p><p> 12.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Dendritic heat convection on a disc, Pages 4381-4391 W. Wechsatol, S. Lorente and A. Bejan Abstract | Full Text + Links | PDF (254 K)</p><p> Fluid flow and heat transfer model for high-speed rotating heat pipes, Pages 43934401 F. Song, D. Ewing and C. Y. Ching Abstract | Full Text + Links | PDF (234 K)</p><p> Droplet evaporation modeling by the distillation curve model: accounting for kerosene fuel and elevated pressures, Pages 4403-4412 M. Burger, R. Schmehl, K. Prommersberger, O. Schäfer, R. Koch and S. Wittig Abstract | Full Text + Links | PDF (492 K)</p><p> Convective cooling of supercritical carbon dioxide inside tubes: heat transfer analysis through neural networks, Pages 4413-4425 G. Scalabrin, L. Piazza and M. Condosta Abstract | Full Text + Links | PDF (250 K)</p><p> Natural convection heat transfer of microemulsion phase-change-material slurry in rectangular cavities heated from below and cooled from above, Pages 4427-4438 H. Inaba, C. Dai and A. Horibe Abstract | Full Text + Links | PDF (323 K)</p><p> Experimental study of nucleate boiling of halocarbon refrigerants on cylindrical surfaces, Pages 4439-4451 Gherhardt Ribatski and José M. Saiz Jabardo Abstract | Full Text + Links | PDF (253 K)</p><p> Local condensation heat transfer rates in fine passages, Pages 4453-4466 J. R. Baird, D. F. Fletcher and B. S. Haynes Abstract | Full Text + Links | PDF (680 K)</p><p> Heat transfer analysis of boreholes in vertical ground heat exchangers, Pages 44674481 Heyi Zeng, Nairen Diao and Zhaohong Fang Abstract | Full Text + Links | PDF (204 K)</p><p> Experimental study of natural convection heat transfer of air in a cube below atmospheric pressure, Pages 4483-4488 H. Hirano, H. Ozoe and N. Okamoto Abstract | Full Text + Links | PDF (325 K)</p><p> The structure of plumes generated in the unidirectional solidification process for a binary system, Pages 4489-4497 T. Nishimura, J. Sasaki and T. T. Htoo Abstract | Full Text + Links | PDF (756 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Abstract | Full Text + Links | PDF (756 K)</p><p> 13.</p><p> 14.</p><p> 15.</p><p> 16.</p><p> 17.</p><p> Non-axisymmetric forced and free flow in a vertical circular duct, Pages 4499-4512 A. Barletta, S. Lazzari and E. Zanchini Abstract | Full Text + Links | PDF (449 K)</p><p> Improvement of thermal characteristics of latent heat thermal energy storage units using carbon-fiber brushes: experiments and modeling, Pages 4513-4525 Jun Fukai, Yuichi Hamada, Yoshio Morozumi and Osamu Miyatake Abstract | Full Text + Links | PDF (506 K)</p><p> Experimental study of evaporating water–ethanol mixture sessile drop: influence of concentration, Pages 4527-4534 K. Sefiane, L. Tadrist and M. Douglas Abstract | Full Text + Links | PDF (428 K)</p><p> Heat transfer in turbulent separated flows in the presence of high free-stream turbulence, Pages 4535-4551 V. I. Terekhov, N. I. Yarygina and R. F. Zhdanov Abstract | Full Text + Links | PDF (1568 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2D-heat transfer modelling within limited regions using moving sources: application to electron beam welding, Pages 4553-4559 D. Couëdel, P. Rogeon, P. Lemasson, M. Carin, J. C. Parpillon and R. Berthet Abstract | PDF (235 K)</p><p> Volume 46, Issue 22, Pages 4145-4354 (October 2003) 1.</p><p> 2.</p><p> 3.</p><p> 4.</p><p> Study of free-convective onset on a horizontal wire using speckle pattern interferometry, Pages 4145-4155 D. Ambrosini, D. Paoletti and G. Schirripa Spagnolo Abstract | Full Text + Links | PDF (460 K)</p><p> Chemical reacting transport phenomena in a PEM fuel cell, Pages 4157-4168 Tien-Chien Jen, Tuanzhou Yan and Shih-Hung Chan Abstract | Full Text + Links | PDF (356 K)</p><p> Visualization of two-phase flow through microgrooved tubes for understanding enhanced heat transfer, Pages 4169-4177 Timothy A. Shedd and Ty A. Newell Abstract | Full Text + Links | PDF (291 K)</p><p> The effects of the number and angle of microgrooves on the liquid film in horizontal annular two-phase flow, Pages 4179-4189 Timothy A. Shedd, Ty A. Newell and Pei Keow Lee Abstract | Full Text + Links | PDF (344 K)</p><p> 5.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 6.</p><p> 7.</p><p> 8.</p><p> 9.</p><p> 10.</p><p> Use of porous baffles to enhance heat transfer in a rectangular channel, Pages 41914199 Kang-Hoon Ko and N. K. Anand Abstract | Full Text + Links | PDF (560 K)</p><p> Entrainment in high-velocity, high-temperature plasma jets. Part I: experimental results, Pages 4201-4213 J. R. Fincke, D. M. Crawford, S. C. Snyder, W. D. Swank, D. C. Haggard and R. L. Williamson Abstract | Full Text + Links | PDF (370 K)</p><p> Entrainment in high-velocity, high-temperature plasma jets.: Part II: computational results and comparison to experiment, Pages 4215-4228 R. L. Williamson, J. R. Fincke, D. M. Crawford, S. C. Snyder, W. D. Swank and D. C. Haggard Abstract | Full Text + Links | PDF (286 K)</p><p> Study of high temperature thermal boundary conditions on active surfaces of the cylinder shaped ultrasonic transducers, Pages 4229-4234 Viktorija Valin i t , Vitas Valin ius and Pranas Valatkevi ius Abstract | Full Text + Links | PDF (222 K)</p><p> A lattice Boltzmann model for electrokinetic microchannel flow of electrolyte solution in the presence of external forces with the Poisson–Boltzmann equation, Pages 4235-4244 Baoming Li and Daniel Y. Kwok Abstract | Full Text + Links | PDF (173 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Boiling incipience of highly wetting liquids in horizontal confined space, Pages 4245-4256 V. Dupont, M. Miscevic, J. L. Joly and V. Platel Abstract | Full Text + Links | PDF (456 K)</p><p> 11.</p><p> Semi-analytical model for boiling from enhanced structures, Pages 4257-4269 C. Ramaswamy, Y. Joshi, W. Nakayama and W. B. Johnson Abstract | Full Text + Links | PDF (299 K)</p><p> 12.</p><p> Turbulent film condensation on a half oval body, Pages 4271-4277 Cha'o-Kuang Chen and Hai-Ping Hu Abstract | Full Text + Links | PDF (219 K)</p><p> 13.</p><p> Analysis of resonances during microwave thawing of slabs, Pages 4279-4301 Tanmay Basak Abstract | Full Text + Links | PDF (1140 K)</p><p> 14.</p><p> 15.</p><p> 16.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 17.</p><p> 18.</p><p> Analytical characterisation of amplitude-dampening and phase-shifting in air/soil heat-exchangers, Pages 4303-4317 Pierre Hollmuller Abstract | Full Text + Links | PDF (398 K)</p><p> Numerical study of momentum and heat transfer in a pulsed plane laminar jet, Pages 4319-4334 Salwa Marzouk, Hatem Mhiri, Salem El Golli, Georges Le Palec and Philippe Bournot Abstract | Full Text + Links | PDF (461 K)</p><p> Axial solids mixing in a circulating fluidized bed, Pages 4335-4343 Yu. S. Teplitsky, V. A. Borodulya and E. F. Nogotov Abstract | Full Text + Links | PDF (261 K)</p><p> The internal surface area basis, a key issue of modeling fouling in enhanced heat transfer tubes, Pages 4345-4349 Wei Li Abstract | Full Text + Links | PDF (172 K)</p><p> The stability of flow in a channel or duct occupied by a porous medium, Pages 4351-4354 D. A. Nield Abstract | Full Text + Links | PDF (84 K)</p><p> Volume 46, Issue 21, Pages 3947-4143 (October 2003) 1.</p><p> Heat and mass transfer bibliography––CIS works, Pages 3947-3966 PDF (169 K)</p><p> 2.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3.</p><p> 4.</p><p> Examination of ratiometric laser induced fluorescence thermometry for microscale spatial measurement resolution, Pages 3967-3974 H. J. Kim, K. D. Kihm and J. S. Allen Abstract | Full Text + Links | PDF (233 K)</p><p> Instantaneous energy separation in a free jet. Part I. Flow measurement and visualization, Pages 3975-3981 B. Han and R. J. Goldstein Abstract | Full Text + Links | PDF (475 K)</p><p> Instantaneous energy separation in a free jet––Part II. Total temperature measurement, Pages 3983-3990 B. Han and R. J. Goldstein Abstract | Full Text + Links | PDF (588 K)</p><p> 5.</p><p> 6.</p><p> 7.</p><p> 8.</p><p> 9.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Measurements of wall heat (mass) transfer for flow through blockages with round and square holes in a wide rectangular channel, Pages 3991-4001 S. C. Lau, J. Cervantes, J. C. Han, R. J. Rudolph and K. Flannery Abstract | Full Text + Links | PDF (332 K)</p><p> Effect of uniform suction on laminar filmwise condensation on a finite-size horizontal flat surface in a porous medium, Pages 4003-4011 Shih-Chieh Wang, Yue-Tzu Yang and Cha'o-Kuang Chen Abstract | Full Text + Links | PDF (193 K)</p><p> Solidification of a supercooled liquid in stagnation-point flow, Pages 4013-4021 R. A. Lambert and R. H. Rangel Abstract | Full Text + Links | PDF (207 K)</p><p> Local turbulent opposing mixed convection heat transfer in inclined flat channel for stably stratified airflow, Pages 4023-4032 P. Poskas and R. Poskas Abstract | Full Text + Links | PDF (219 K)</p><p> Two-dimensional heat and moisture transfer analysis of a cylindrical moist object subjected to drying: A finite-difference approach, Pages 4033-4039 M. M. Hussain and I. Dincer Abstract | Full Text + Links | PDF (217 K)</p><p> 10.</p><p> The growth and collapse of a micro-bubble under pulse heating, Pages 4041-4050 Peigang Deng, Yi-Kuen Lee and Ping Cheng Abstract | Full Text + Links | PDF (429 K)</p><p> 11.</p><p> A void fraction model for annular flow in horizontal tubes, Pages 4051-4057 Todd M. Harms, Daqing Li, Eckhard A. Groll and James E. Braun Abstract | Full Text + Links | PDF (172 K)</p><p> 12.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 13.</p><p> 14.</p><p> Effects of fin geometry on boiling heat transfer from silicon chips with micro-pinfins immersed in FC-72, Pages 4059-4070 J. J. Wei and H. Honda Abstract | Full Text + Links | PDF (684 K)</p><p> Momentum transport at a fluid–porous interface, Pages 4071-4081 B. Goyeau, D. Lhuillier, D. Gobin and M. G. Velarde Abstract | Full Text + Links | PDF (301 K)</p><p> Numerical analysis of wave-type heat transfer propagating in a thin foil irradiated by short-pulsed laser, Pages 4083-4095 Eiji Hoashi, Takehiko Yokomine, Akihiko Shimizu and Tomoaki Kunugi Abstract | Full Text + Links | PDF (563 K)</p><p> 15.</p><p> 16.</p><p> 17.</p><p> 18.</p><p> Numerical computation for Rayleigh–Benard convection of water in a magnetic field, Pages 4097-4104 Toshio Tagawa, Azusa Ujihara and Hiroyuki Ozoe Abstract | Full Text + Links | PDF (495 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> High heat flux removal using water subcooled flow boiling in a single-side heated circular channel, Pages 4105-4117 Ronald D. Boyd, Marcella Strahan, Penrose Cofie, Ali Ekhlassi and Rashad Martin Abstract | Full Text + Links | PDF (334 K)</p><p> Interaction of the transfer processes in semitransparent liquid droplets, Pages 4119-4138 G. Miliauskas Abstract | Full Text + Links | PDF (603 K)</p><p> Thermal contact conductance: effect of overloading and load cycling, Pages 41394143 Syed M. S. Wahid and C. V. Madhusudana Abstract | Full Text + Links | PDF (95 K)</p><p> Volume 46, Issue 20, Pages 3737-3945 (September 2003) 1.</p><p> 2.</p><p> 3.</p><p> 4.</p><p> 5.</p><p> Heat transfer characteristics of spray cooling in a closed loop, Pages 3737-3746 Lanchao Lin and Rengasamy Ponnappan Abstract | Full Text + Links | PDF (319 K)</p><p> Optimal control of accelerator concentration for resin transfer molding process, Pages 3747-3754 Sun K. Kim, Dae-Hwan Kim and Isaac M. Daniel Abstract | Full Text + Links | PDF (456 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Effusivity-based correlation of surface property effects in pool boiling CHF of dielectric liquids, Pages 3755-3764 Mehmet Arik and Avram Bar-Cohen Abstract | Full Text + Links | PDF (590 K)</p><p> Characterization of the effect of Froude number on surface waves and heat transfer in inclined turbulent open channel water flows, Pages 3765-3775 B. Freeze, S. Smolentsev, N. Morley and M. Abdou Abstract | Full Text + Links | PDF (297 K)</p><p> Effect of inlet flow maldistribution on the thermal performance of a three-fluid crossflow heat exchanger, Pages 3777-3787 Ping Yuan Abstract | Full Text + Links | PDF (517 K)</p><p> 6.</p><p> Prediction of the frost formation on a cold flat surface, Pages 3789-3796 Kwan-Soo Lee, Sung Jhee and Dong-Keun Yang Abstract | Full Text + Links | PDF (519 K)</p><p> 7.</p><p> A fundamental understanding of factors affecting frost nucleation, Pages 3797-3808 Byeongchul Na and Ralph L. Webb Abstract | Full Text + Links | PDF (302 K)</p><p> 8.</p><p> Microscales of saturated pool film boiling, Pages 3809-3814 Vedat S. Arpac and Hyo Seok Lee Abstract | Full Text + Links | PDF (110 K)</p><p> 9.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 10.</p><p> 11.</p><p> 12.</p><p> 13.</p><p> 14.</p><p> 15.</p><p> Parametric study of unsteady flow and heat transfer in a pin-fin heat exchanger, Pages 3815-3830 A. K. Saha and Sumanta Acharya Abstract | Full Text + Links | PDF (1387 K)</p><p> Convection in a vertical cavity submitted to crossed uniform heat fluxes, Pages 3831-3840 Michel Prud'homme, Habiba Bougherara and Ali Bahloul Abstract | Full Text + Links | PDF (347 K)</p><p> Structures of scalar transport in 2D transitional jet diffusion flames by LES, Pages 3841-3851 Y. Liu, K. S. Lau, C. K. Chan, Y. C. Guo and W. Y. Lin Abstract | Full Text + Links | PDF (460 K)</p><p> Thermodynamically consistent description of heat conduction with finite speed of heat propagation, Pages 3853-3863 Isaac Shnaid Abstract | Full Text + Links | PDF (197 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Thermal entry flow for a viscoelastic fluid: the Graetz problem for the PTT model, Pages 3865-3880 P. M. Coelho, F. T. Pinho and P. J. Oliveira Abstract | Full Text + Links | PDF (337 K)</p><p> The stability of boundary-layer flows under conditions of intense interfacial mass transfer: the effect of interfacial coupling, Pages 3881-3895 Iordan A. Halatchev and James P. Denier Abstract | Full Text + Links | PDF (948 K)</p><p> Bubble nucleation on micro line heaters under steady or finite pulse of voltage input, Pages 3897-3907 Jung-Yeul Jung, Jung-Yeop Lee, Hong-Chul Park and Ho-Young Kwak Abstract | Full Text + Links | PDF (310 K)</p><p> 16.</p><p> 17.</p><p> 18.</p><p> 19.</p><p> Computation of low Mach thermical flows with implicit upwind methods, Pages 3909-3926 Eric Schall, Cecile Viozat, Bruno Koobus and Alain Dervieux Abstract | Full Text + Links | PDF (1642 K)</p><p> Linear analysis of an aerothermal instability occurring in diffusion-controlled premixed catalytic combustion, Pages 3927-3934 Gérard Capitaine Abstract | Full Text + Links | PDF (187 K)</p><p> Correlations for natural convection heat transfer in two-layer fluids with internal heat generation, Pages 3935-3940 Askar A. Gubaidullin Abstract | Full Text + Links | PDF (126 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Comments on "critical view on new results in micro-fluid mechanics", Pages 39413945 Mohamed Gad-el-Hak Abstract | Full Text + Links | PDF (102 K)</p><p> Volume 46, Issue 19, Pages 3551-3735 (September 2003) 1.</p><p> 2.</p><p> 3.</p><p> 4.</p><p> 5.</p><p> Experimental benchmark data for turbulent natural convection in an air filled square cavity, Pages 3551-3572 F. Ampofo and T. G. Karayiannis Abstract | Full Text + Links | PDF (437 K)</p><p> Measurements in three-dimensional laminar separated flow, Pages 3573-3582 B. F. Armaly, A. Li and J. H. Nie Abstract | Full Text + Links | PDF (513 K)</p><p> A new buoyancy model replacing the standard pseudo-density difference for internal natural convection in gases, Pages 3583-3591 E. M. Sparrow and J. P. Abraham Abstract | Full Text + Links | PDF (338 K)</p><p> Multi-group full-spectrum k-distribution database for water vapor mixtures in radiative transfer calculations, Pages 3593-3603 Hongmei Zhang and Michael F. Modest Abstract | Full Text + Links | PDF (662 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Transient buoyant convection of a power-law non-Newtonian fluid in an enclosure, Pages 3605-3617 Gi Bin Kim, Jae Min Hyun and Ho Sang Kwak Abstract | Full Text + Links | PDF (428 K)</p><p> 6.</p><p> 7.</p><p> 8.</p><p> 9.</p><p> 10.</p><p> 11.</p><p> 12.</p><p> 13.</p><p> 14.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 15.</p><p> Effects of particle sizes on transport phenomena in single char combustion, Pages 3619-3627 Rong He, Toshiyuki Suda, Toshiro Fujimori and Jun'ichi Sato Abstract | Full Text + Links | PDF (217 K)</p><p> A three-dimensional inverse problem in imaging the local heat transfer coefficients for plate finned-tube heat exchangers, Pages 3629-3638 Cheng-Hung Huang, I-Cha Yuan and Herchang Ay Abstract | Full Text + Links | PDF (475 K)</p><p> Buoyancy-driven heat transfer enhancement in a two-dimensional enclosure utilizing nanofluids, Pages 3639-3653 Khalil Khanafer, Kambiz Vafai and Marilyn Lightstone Abstract | Full Text + Links | PDF (973 K)</p><p> Cubical-cavity natural-convection benchmark experiments: an extension, Pages 3655-3660 M. A. H. Mamun, W. H. Leong, K. G. T. Hollands and D. A. Johnson Abstract | Full Text + Links | PDF (125 K)</p><p> Natural convection around a horizontal heated cylinder: The effects of vertical confinement, Pages 3661-3672 Mohamed A. Atmane, Victor S. S. Chan and Darina B. Murray Abstract | Full Text + Links | PDF (553 K)</p><p> Subcooled flow boiling heat transfer in narrow passages, Pages 3673-3682 B. S. Haynes and D. F. Fletcher Abstract | Full Text + Links | PDF (506 K)</p><p> Validation of the use of heat transfer models in liquid/solid fluidized beds for ice slurry generation, Pages 3683-3695 J. W. Meewisse and C. A. Infante Ferreira Abstract | Full Text + Links | PDF (203 K)</p><p> Stability of a fluid-saturated porous medium heated from below by forced convection, Pages 3697-3705 J. P. Kubitschek and P. D. Weidman Abstract | Full Text + Links | PDF (409 K)</p><p> A numerical study of turbulent flow and conjugate heat transfer in concentric annuli with moving inner rod, Pages 3707-3716 Shehua Huang and Chung-Hwan Chun Abstract | Full Text + Links | PDF (552 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> On the rate of evaporation of water into a stream of dry air, humidified air and superheated steam, and the inversion temperature, Pages 3717-3726 V. A. F. Costa and F. Neto da Silva Abstract | Full Text + Links | PDF (202 K)</p><p> V. A. F. Costa and F. Neto da Silva Abstract | Full Text + Links | PDF (202 K)</p><p> 16.</p><p> Thermal resistance of a multi-constrictions contact: A simple model, Pages 37273735 Alain Degiovanni, Benjamin Remy and Stéphane Andre Abstract | Full Text + Links | PDF (206 K)</p><p> Volume 46, Issue 18, Pages 3329-3550 (August 2003) 1.</p><p> Study on heat driven pump. Part 1––experimental measurements, Pages 3329-3335 J. L. Xu, X. Y. Huang and T. N. Wong Abstract | Full Text + Links | PDF (240 K)</p><p> 2.</p><p> Study on heat driven pump. Part 2––Mathematical modeling, Pages 3337-3347 J. L. Xu, T. N. Wong and X. Y. Huang Abstract | Full Text + Links | PDF (288 K)</p><p> 3.</p><p> 4.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 5.</p><p> 6.</p><p> 7.</p><p> 8.</p><p> Condensation in horizontal tubes, part 1: two-phase flow pattern map, Pages 33493363 J. El Hajal, J. R. Thome and A. Cavallini Abstract | Full Text + Links | PDF (403 K)</p><p> Condensation in horizontal tubes, part 2: new heat transfer model based on flow regimes, Pages 3365-3387 J. R. Thome, J. El Hajal and A. Cavallini Abstract | Full Text + Links | PDF (923 K)</p><p> Non-uniform slot injection (suction) into steady laminar water boundary layer flow over a rotating sphere, Pages 3389-3396 S. Roy and P. Saikrishnan Abstract | Full Text + Links | PDF (180 K)</p><p> A methodology to work on geometrically complex heat transfer systems: the cases of heat conduction through composite slabs, Pages 3397-3409 Wataru Nakayama Abstract | Full Text + Links | PDF (379 K)</p><p> Concerning the magnitude of the maximum heat flux and the mechanisms of superintensive bubble boiling, Pages 3411-3427 S. A. Zhukov, S. Yu. Afanas'ev and S. B.Echmaev Abstract | Full Text + Links | PDF (419 K)</p><p> Numerical analysis of the transient turbulent flow in a fuel oil storage tank, Pages 3429-3440 Nurten Vardar Abstract | Full Text + Links | PDF (440 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Abstract | Full Text + Links | PDF (440 K)</p><p> 9.</p><p> 10.</p><p> 11.</p><p> 12.</p><p> 13.</p><p> 14.</p><p> 15.</p><p> 16.</p><p> 17.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Entropy generation at the onset of natural convection, Pages 3441-3450 M. Magherbi, H. Abbassi and A. Ben Brahim Abstract | Full Text + Links | PDF (274 K)</p><p> Condensation of bubbles in miscible liquids, Pages 3451-3463 H. Kalman Abstract | Full Text + Links | PDF (486 K)</p><p> Effect of the viscosity on the thermal transfer at early time to an impulsively started translating droplet, Pages 3465-3475 D. Léger and R. Askovic Abstract | Full Text + Links | PDF (201 K)</p><p> Study of the influence of the number of holes rows on the convective heat transfer in the case of full coverage film cooling: Etude de l'influence du nombre de rangées de trous sur les échanges convectifs dans le cas du refroidissement par multiperforation, Pages 3477-3496 Brice Petre, Eva Dorignac and J. J. Vullierme Abstract | Full Text + Links | PDF (1227 K)</p><p> Cocurrent turbulent mixed convection heat and mass transfer in falling film of water inside a vertical heated tube, Pages 3497-3509 M. Feddaoui, A. Mir and E. Belahmidi Abstract | Full Text + Links | PDF (473 K)</p><p> Laser shortpulse heating of gold: variable properties case, Pages 3511-3520 Bekir Sami Yilbas Abstract | Full Text + Links | PDF (220 K)</p><p> Impingement heat transfer of a single thermal plume on the upper wall, Pages 3521-3528 Koichi Ichimiya and Toshihisa Abe Abstract | Full Text + Links | PDF (343 K)</p><p> Control of laminar natural convection in differentially heated square enclosures using solid inserts at the corners, Pages 3529-3537 V. A. F. Costa, M. S. A. Oliveira and A. C. M. Sousa Abstract | Full Text + Links | PDF (308 K)</p><p> Helmholtz behavior and transfer function of an industrial fuel swirl burner used in heating systems, Pages 3539-3548 K. Zähringer, D. Durox and F. Lacas Abstract | Full Text + Links | PDF (208 K)</p><p> 18.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Erratum to "Modeling of bubble-layer thickness for formulation of onedimensional interfacial area transport equation in subcooled boiling two-phase flow" [International Journal of Heat and Mass Transfer 46 (2003) 1409–1423], Pages 3549-3550 Takashi Hibiki, Rong Situ, Ye Mi and Mamoru Ishii Abstract | Full Text + Links | PDF (52 K)</p><p> Volume 46, Issue 17, Pages 3135-3328 (August 2003) 1.</p><p> 2.</p><p> 3.</p><p> 4.</p><p> 5.</p><p> 6.</p><p> 7.</p><p> 8.</p><p> Heat transfer between an under-expanded jet and a cylindrical surface, Pages 31353142 M. Rahimi, I. Owen and J. Mistry Abstract | Full Text + Links | PDF (385 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> An investigation of dryout/rewetting in subcooled two-phase flow boiling, Pages 3143-3152 R. C. Jones and R. L. Judd Abstract | Full Text + Links | PDF (295 K)</p><p> Flow structure and local Nusselt number variations in a channel with angled crossed-rib turbulators, Pages 3153-3166 S. Y. Won, G. I. Mahmood and P. M. Ligrani Abstract | Full Text + Links | PDF (708 K)</p><p> The Brinkman model for the mixed convection boundary layer flow past a horizontal circular cylinder in a porous medium, Pages 3167-3178 Roslinda Nazar, Norsarahaida Amin, Diana Filip and Ioan Pop Abstract | Full Text + Links | PDF (201 K)</p><p> A molecular dynamics simulation of droplet evaporation, Pages 3179-3188 Lorenzo Consolini, Suresh K. Aggarwal and Sohail Murad Abstract | Full Text + Links | PDF (462 K)</p><p> Unsteady flow and heat transfer in plane channels with spatially periodic vortex generators, Pages 3189-3199 Alvaro Valencia and Mihir Sen Abstract | Full Text + Links | PDF (754 K)</p><p> Estimation of particle volume fraction, mass fraction and number density in thermophoretic deposition systems, Pages 3201-3209 Pushkar Tandon, James P. Terrell, Xiaodong Fu and Amy Rovelstad Abstract | Full Text + Links | PDF (184 K)</p><p> Free surface heat loss effect on oscillatory thermocapillary flow in liquid bridges of high Prandtl number fluids, Pages 3211-3220 Y. Kamotani, L. Wang, S. Hatta, A. Wang and S. Yoda Abstract | Full Text + Links | PDF (197 K)</p><p> 9.</p><p> 10.</p><p> Simulation and experiment of the unsteady heat transport in the onset time of nucleation and crystallization of ice from the subcooled solution, Pages 3221-3231 Frank G. F. Qin, Jian Chao Zhao, Andrew B. Russell, Xiao Dong Chen, John J. Chen and Lindsay Robertson Abstract | Full Text + Links | PDF (357 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Effect of physiology on the temperature distribution of a layered head with external convection, Pages 3233-3241 Obdulia Ley and Yildiz Bayazitoglu Abstract | Full Text + Links | PDF (187 K)</p><p> 11.</p><p> Thermal action of a short light pulse on biological tissues, Pages 3243-3254 V. V. Barun and A. P. Ivanov Abstract | Full Text + Links | PDF (206 K)</p><p> 12.</p><p> Analytic model for transient heat exchanger response, Pages 3255-3264 Juan Yin and Michael K. Jensen Abstract | Full Text + Links | PDF (281 K)</p><p> 13.</p><p> 14.</p><p> 15.</p><p> 16.</p><p> 17.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 18.</p><p> A general formula for the evaluation of thermodynamic and aerodynamic losses in nucleating steam flow, Pages 3265-3278 M. J. Kermani and A. G. Gerber Abstract | Full Text + Links | PDF (491 K)</p><p> Dynamics of filtration combustion front perturbation in the tubular porous media burner, Pages 3279-3289 K. V. Dobrego, I. M. Kozlov, V. I. Bubnovich and C. E. Rosas Abstract | Full Text + Links | PDF (255 K)</p><p> Annular synthetic jet used for impinging flow mass-transfer, Pages 3291-3297 Zden k Trávní ek and Václav Tesa Abstract | Full Text + Links | PDF (440 K)</p><p> Validation of a model for the absorption process of H2O(vap) by a LiBr(aq) in a horizontal tube bundle, using a multi-factorial analysis, Pages 3299-3312 Victor Manuel Soto Francés and José Manuel Pinazo Ojer Abstract | Full Text + Links | PDF (276 K)</p><p> A numerical model for segmented flow in a microreactor, Pages 3313-3322 N. Harries, J. R. Burns, D. A. Barrow and C. Ramshaw Abstract | Full Text + Links | PDF (569 K)</p><p> Three-dimensional diffusion in a multiphase body with randomly disposed inclusions of a spherical form, Pages 3323-3328 Yevgen Chaplia and Olha Chernukha Abstract | Full Text + Links | PDF (155 K)</p><p> Abstract | Full Text + Links | PDF (155 K)</p><p> Volume 46, Issue 16, Pages 2925-3133 (July 2003) 1.</p><p> 2.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3.</p><p> 4.</p><p> 5.</p><p> 6.</p><p> 7.</p><p> 8.</p><p> 9.</p><p> Professor Sadik Kakaç on his 70th birthday, Pages 2925-2926 R. Cotta, J. Padet, W. J. Minkowycz, R. I. Nigmatulin and W. -J. Yang Abstract | Full Text + Links | PDF (54 K)</p><p> Forced and mixed convective heat transfer from accelerated flow past an elliptic cylinder, Pages 2927-2946 S. J. D. D'Alessio, M. G. Saunders and D. L. Harmsworth Abstract | Full Text + Links | PDF (755 K)</p><p> Confined swirling jet impingement onto an adiabatic wall, Pages 2947-2955 S. Z. Shuja, B. S. Yilbas and M. Rashid Abstract | Full Text + Links | PDF (485 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Experimental study of unsteady convective boiling in heated minichannels, Pages 2957-2965 D. Brutin, F. Topin and L. Tadrist Abstract | Full Text + Links | PDF (426 K)</p><p> A new ideal evaporative freezing cycle, Pages 2967-2974 Yunus Cerci Abstract | Full Text + Links | PDF (168 K)</p><p> Two-phase flow pattern in small diameter tubes with the presence of horizontal return bend, Pages 2975-2981 Chi-Chung Wang, Ing Youn Chen, Yung-Wei Yang and Yu-Juei Chang Abstract | Full Text + Links | PDF (372 K)</p><p> A fiber-optic Bragg grating sensor for simultaneous static and dynamic temperature measurement on a heated cylinder in cross-flow, Pages 2983-2992 Z. J. Wang, Y. Zhou, X. W. Wang and W. Jin Abstract | Full Text + Links | PDF (298 K)</p><p> Formation characteristics of nitric oxide in a three-staged air/LPG flame, Pages 2993-3008 Han Seok Kim, Seung Wook Baek and Myoung Jong Yu Abstract | Full Text + Links | PDF (705 K)</p><p> Thermocapillarity in a liquid film on an unsteady stretching surface, Pages 30093015 Bhabani S. Dandapat, Bidyut Santra and Helge I. Andersson Abstract | Full Text + Links | PDF (153 K)</p><p> 10.</p><p> 11.</p><p> 12.</p><p> 13.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 14.</p><p> 15.</p><p> 16.</p><p> 17.</p><p> 18.</p><p> Numerical simulation of fuel sprays at high ambient pressure: the influence of real gas effects and gas solubility on droplet vaporisation, Pages 3017-3028 S. Hohmann and U. Renz Abstract | Full Text + Links | PDF (369 K)</p><p> Heat and mass transfer of a convective-stratified flow in a trough type tundish, Pages 3029-3039 A. Vargas-Zamora, R. D. Morales, M. Díaz-Cruz, J. Palafox-Ramos and L. García Demedices Abstract | Full Text + Links | PDF (723 K)</p><p> Effect of compressibility on gaseous flows in micro-channels, Pages 3041-3050 Yutaka Asako, Tianqi Pi, Stephen E. Turner and Mohammad Faghri Abstract | Full Text + Links | PDF (456 K)</p><p> Effect of tube alignment on the heat/mass transfer from a plate fin and two-tube assembly: naphthalene sublimation results, Pages 3051-3059 Jin-Yoon Kim and Tae-Ho Song Abstract | Full Text + Links | PDF (1323 K)</p><p> Multi-phase flow and drying characteristics in a semi-circular impinging stream dryer, Pages 3061-3067 X. L. Huai, X. F. Peng, G. X. Wang and D. Y. Liu Abstract | Full Text + Links | PDF (193 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> The influence of heat on the 3D-transition of the von Kármán vortex street, Pages 3069-3081 W. J. P. M. Maas, C. C. M. Rindt and A. A. van Steenhoven Abstract | Full Text + Links | PDF (659 K)</p><p> Computational efficiency improvements of the radiative transfer problems with or without conduction––a comparison of the collapsed dimension method and the discrete transfer method, Pages 3083-3095 Subhash C. Mishra, Prabal Talukdar, D. Trimis and Franz Durst Abstract | Full Text + Links | PDF (372 K)</p><p> Finite element solutions of heat transfer in molten polymer flow in tubes with viscous dissipation, Pages 3097-3108 Dongming Wei and Haibiao Luo Abstract | Full Text + Links | PDF (219 K)</p><p> Natural convection heat transfer increase at the laminar–turbulent transition in the presence of instationary longitudinal vortices, Pages 3109-3117 R. Biertümpfel and H. Beer Abstract | Full Text + Links | PDF (477 K)</p><p> 19.</p><p> Effect of cross-sectional aspect ratio on turbulent heat transfer in an orthogonally rotating rectangular duct with angled rib turbulators, Pages 3119-3133 Akira Murata and Sadanari Mochizuki Abstract | Full Text + Links | PDF (1103 K)</p><p> Volume 46, Issue 15, Pages 2715-2923 (July 2003) 1.</p><p> Flow and heat transfer in cavities between rotor and stator disks, Pages 2715-2726 Gian Paolo Beretta and Enrico Malfa Abstract | Full Text + Links | PDF (395 K)</p><p> 2.</p><p> Heat exchange between two coupled fixed beds by fluid flow, Pages 2727-2735 J. J. Saastamoinen Abstract | Full Text + Links | PDF (170 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3.</p><p> 4.</p><p> 5.</p><p> Measurement and prediction of pressure drop in two-phase micro-channel heat sinks, Pages 2737-2753 Weilin Qu and Issam Mudawar Abstract | Full Text + Links | PDF (478 K)</p><p> Flow boiling heat transfer in two-phase micro-channel heat sinks––I. Experimental investigation and assessment of correlation methods, Pages 2755-2771 Weilin Qu and Issam Mudawar Abstract | Full Text + Links | PDF (412 K)</p><p> Flow boiling heat transfer in two-phase micro-channel heat sinks––II. Annular twophase flow model, Pages 2773-2784 Weilin Qu and Issam Mudawar Abstract | Full Text + Links | PDF (244 K)</p><p> 6.</p><p> Constructal tree-shaped two-phase flow for cooling a surface, Pages 2785-2797 C. Zamfirescu and A. Bejan Abstract | Full Text + Links | PDF (299 K)</p><p> 7.</p><p> Radial mass-transfer enhancement in bubble-train flow, Pages 2799-2808 Rainer Gruber and Thomas Melin Abstract | Full Text + Links | PDF (201 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 8.</p><p> 9.</p><p> Effect of the potential field on non-Fickian diffusion problems in a sphere, Pages 2809-2818 Han-Taw Chen and Kuo-Chi Liu Abstract | Full Text + Links | PDF (201 K)</p><p> Influence of convection and grain movement on globular equiaxed solidification, Pages 2819-2832 Menghuai Wu, Andreas Ludwig, Andreas Bührig-Polaczek, Martin Fehlbier and Peter R. Sahm Abstract | PDF (485 K)</p><p> Menghuai Wu, Andreas Ludwig, Andreas Bührig-Polaczek, Martin Fehlbier and Peter R. Sahm Abstract | PDF (485 K)</p><p> 10.</p><p> 11.</p><p> 12.</p><p> 13.</p><p> 14.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 15.</p><p> 16.</p><p> 17.</p><p> 18.</p><p> Shape optimization of cut-off in a multi-blade fan/scroll system using neural network, Pages 2833-2839 S. -Y. Han and J. -S. Maeng Abstract | Full Text + Links | PDF (348 K)</p><p> Heat transfer enhancement in cross-flow heat exchangers using oval tubes and multiple delta winglets, Pages 2841-2856 S. Tiwari, D. Maurya, G. Biswas and V. Eswaran Abstract | Full Text + Links | PDF (2238 K)</p><p> The onset of transient convection in bottom heated porous media, Pages 2857-2873 Ka-Kheng Tan, Torng Sam and Hishamuddin Jamaludin Abstract | Full Text + Links | PDF (335 K)</p><p> Simultaneous heat and mass transport in paper sheets during moisture sorption from humid air, Pages 2875-2886 W. R. Foss, C. A. Bronkhorst and K. A. Bennett Abstract | Full Text + Links | PDF (310 K)</p><p> Global simulation of a silicon Czochralski furnace in an axial magnetic field, Pages 2887-2898 You-Rong Li, Deng-Fang Ruan, Nobuyuki Imaishi, Shuang-Ying Wu, Lan Peng and Dan-Ling Zeng Abstract | Full Text + Links | PDF (507 K)</p><p> Recirculation model of kettle reboiler, Pages 2899-2909 S. Kumar, A. Jain, B. Mohanty and S. C. Gupta Abstract | Full Text + Links | PDF (205 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Finite difference solution of one-dimensional Stefan problem with periodic boundary conditions, Pages 2911-2916 Svetislav Savovi and James Caldwell Abstract | Full Text + Links | PDF (192 K)</p><p> Temperature distributions in an absorbing–emitting–scattering semitransparent slab with variable spatial refractive index, Pages 2917-2920 L. H. Liu, H. P. Tan and Q. Z. Yu Abstract | Full Text + Links | PDF (124 K)</p><p> Call for papers, Page 2921 PDF (73 K)</p><p> 19.</p><p> CHT-04 3RD ICHMT symposium on advances in computational heat Transfer, Page 2923 PDF (115 K)</p><p> Volume 46, Issue 14, Pages 2515-2713 (July 2003) 1.</p><p> 2.</p><p> 3.</p><p> 4.</p><p> 5.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Professor Chang-Lin Tien (1935–2002), Pages 2515-2517 A. Majumdar, P. F. Peterson, J. P. Hartnett and W. J. Minkowycz Abstract | Full Text + Links | PDF (72 K)</p><p> Friction factors in smooth trapezoidal silicon microchannels with different aspect ratios, Pages 2519-2525 H. Y. Wu and Ping Cheng Abstract | Full Text + Links | PDF (168 K)</p><p> Critical quality prediction for saturated flow boiling of CO2 in horizontal small diameter tubes, Pages 2527-2535 Rin Yun and Yongchan Kim Abstract | Full Text + Links | PDF (174 K)</p><p> Heat transfer and banks formation in a slag bath with embedded heat sources, Pages 2537-2545 Louis Gosselin and Marcel Lacroix Abstract | Full Text + Links | PDF (289 K)</p><p> An experimental study of convective heat transfer in silicon microchannels with different surface conditions, Pages 2547-2556 H. Y. Wu and Ping Cheng Abstract | Full Text + Links | PDF (285 K)</p><p> 6.</p><p> Heat transfer to impinging round jets with triangular tabs, Pages 2557-2569 N. Gao, H. Sun and D. Ewing Abstract | Full Text + Links | PDF (525 K)</p><p> 7.</p><p> Modeling of plate heat exchangers with generalized configurations, Pages 2571-2585 Jorge A. W. Gut and José M. Pinto Abstract | Full Text + Links | PDF (483 K)</p><p> 8.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Active nucleation site density in boiling systems, Pages 2587-2601 Takashi Hibiki and Mamoru Ishii Abstract | Full Text + Links | PDF (779 K)</p><p> 9.</p><p> Visualization and measurements of periodic boiling in silicon microchannels, Pages 2603-2614 H. Y. Wu and Ping Cheng Abstract | Full Text + Links | PDF (440 K)</p><p> H. Y. Wu and Ping Cheng Abstract | Full Text + Links | PDF (440 K)</p><p> 10.</p><p> 11.</p><p> 12.</p><p> 13.</p><p> 14.</p><p> 15.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 16.</p><p> 17.</p><p> 18.</p><p> Sharp-interface simulation of dendritic growth with convection: benchmarks, Pages 2615-2627 H. S. Udaykumar, S. Marella and S. Krishnan Abstract | Full Text + Links | PDF (442 K)</p><p> The onset of convective instability in the thermal entrance region of plane Poiseuille flow heated uniformly from below, Pages 2629-2636 Min Chan Kim, Tae Joon Chung and Chang Kyun Choi Abstract | Full Text + Links | PDF (170 K)</p><p> Influence of sleeve tube on the flow and heat transfer behavior at a T-junction, Pages 2637-2644 H. L. Wu, X. F. Peng and T. K. Chen Abstract | Full Text + Links | PDF (695 K)</p><p> Simultaneous reconstruction of temperature distribution, absorptivity of wall surface and absorption coefficient of medium in a 2-D furnace system, Pages 26452653 Huai-Chun Zhou and Shu-Dong Han Abstract | Full Text + Links | PDF (165 K)</p><p> Numerical study for enhancement of laminar flow mixing using multiple confined jets in a micro-can combustor, Pages 2655-2663 Peter L. Woodfield, Kazuyoshi Nakabe and Kenjiro Suzuki Abstract | Full Text + Links | PDF (503 K)</p><p> A fractal model for predicting the effective thermal conductivity of liquid with suspension of nanoparticles, Pages 2665-2672 Bu-Xuan Wang, Le-Ping Zhou and Xiao-Feng Peng Abstract | Full Text + Links | PDF (311 K)</p><p> Extension of the compensated distortion method to the critical heat flux modelling in rectangular inclined channel, Pages 2673-2684 F. François and G. Berthoud Abstract | Full Text + Links | PDF (345 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Choked flow and heat transfer of low density gas in a narrow parallel-plate channel with uniformly heating walls, Pages 2685-2693 M. Miyamoto, W. Shi, Y. Katoh and J. Kurima Abstract | Full Text + Links | PDF (189 K)</p><p> Unsteady flow of a non-Newtonian fluid above a rotating disk with heat transfer, Pages 2695-2700 H. A. Attia Abstract | Full Text + Links | PDF (167 K)</p><p> H. A. Attia Abstract | Full Text + Links | PDF (167 K)</p><p> 19.</p><p> 20.</p><p> 21.</p><p> Transient conjugated heat transfer in thick walled pipes with convective boundary conditions, Pages 2701-2709 efik Bilir and Ali Ate Abstract | Full Text + Links | PDF (193 K)</p><p> Comment on the paper by H. Wang, X.F. Peng, B.X. Wang, and D.J. Lee "Jet flow phenomena during nucleate boiling" IJHMT 45 (6) (2002) 1359–1363, Pages 27112712 I. G. Shekriladze Abstract | Full Text + Links | PDF (47 K)</p><p> Announcement: Microgravity transport processes in fluid, thermal, materials and biological sciences III, Page 2713 PDF (29 K)</p><p> Volume 46, Issue 13, Pages 2305-2514 (June 2003) 1.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2.</p><p> 3.</p><p> 4.</p><p> 5.</p><p> Influence of viscous dissipation and radiation on unsteady MHD free-convection flow past an infinite heated vertical plate in a porous medium with time-dependent suction, Pages 2305-2311 C. Israel-Cookey, A. Ogulu and V. B. Omubo-Pepple Abstract | Full Text + Links | PDF (149 K)</p><p> Thermosolutal transport and macrosegregation during freeze coating of a binary substance on a continuous moving object, Pages 2313-2327 C. Tangthieng and F. B. Cheung Abstract | Full Text + Links | PDF (617 K)</p><p> Influence of viscosity variations on the forced convection flow through two types of heterogeneous porous media with isoflux boundary condition, Pages 2329-2339 K. Sundaravadivelu and C. P. Tso Abstract | Full Text + Links | PDF (253 K)</p><p> Complex combination solution for radiation–conduction transport with periodic boundary conditions, Pages 2341-2351 Ted D. Bennett Abstract | Full Text + Links | PDF (298 K)</p><p> Boiling heat transfer and dryout phenomenon of CO2 in a horizontal smooth tube, Pages 2353-2361 Rin Yun, Yongchan Kim, Min Soo Kim and Youngdon Choi Abstract | Full Text + Links | PDF (484 K)</p><p> 6.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Steady-state heat conduction in multi-layer bodies, Pages 2363-2379 A. Haji-Sheikh, J. V. Beck and D. Agonafer Abstract | Full Text + Links | PDF (525 K)</p><p> 7.</p><p> Transport phenomena in the thin-film region of a micro-channel, Pages 2381-2388 Kyoungwoo Park, Kwan-Joong Noh and Kwan-Soo Lee Abstract | Full Text + Links | PDF (290 K)</p><p> 8.</p><p> 9.</p><p> 10.</p><p> 11.</p><p> 12.</p><p> 13.</p><p> 14.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 15.</p><p> Natural convection from narrow horizontal plates at moderate Rayleigh numbers, Pages 2389-2402 Ingrid Martorell, Joan Herrero and Francesc X. Grau Abstract | Full Text + Links | PDF (557 K)</p><p> Mixed convection in the copper dissolution technique of studying mass transfer, Pages 2403-2413 Rainer Gruber and Thomas Melin Abstract | Full Text + Links | PDF (206 K)</p><p> Mass transfer of volatile organic compounds from painting material in a standard field and laboratory emission cell, Pages 2415-2423 L. Z. Zhang and J. L. Niu Abstract | Full Text + Links | PDF (273 K)</p><p> Modelling and control of rectangular natural circulation loops, Pages 2425-2444 A. Fichera and A. Pagano Abstract | Full Text + Links | PDF (501 K)</p><p> Online fouling detection in electrical circulation heaters using neural networks, Pages 2445-2457 Sylvain Lalot and Stéphane Lecoeuche Abstract | PDF (231 K)</p><p> Two-dimensional simulation of turbulent flow and transfer through stacked spheres, Pages 2459-2469 Graciela Alvarez, Pierre-Emmanuel Bournet and Denis Flick Abstract | Full Text + Links | PDF (330 K)</p><p> Analysis of convective momentum and wall heat transfer: application to vortex boundary layer interaction, Pages 2471-2483 Xavier Escriva and André Giovannini Abstract | Full Text + Links | PDF (248 K)</p><p> Numerical simulation of the cooling of a hot disk rapidly subjected to combined convective and radiant heat losses, Pages 2485-2493 A. Ferriere, C. Chaussavoine, J. -P. Leyris and J. Hameury Abstract | Full Text + Links | PDF (382 K)</p><p> 16.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 17.</p><p> 18.</p><p> 19.</p><p> On steady one-dimensional diffusion in binary ideal gas mixtures, Pages 2495-2497 A. F. Mills Abstract | Full Text + Links | PDF (79 K)</p><p> Dual free-convective flows in a horizontal annulus with a constant heat flux wall, Pages 2499-2503 Joo-Sik Yoo Abstract | Full Text + Links | PDF (164 K)</p><p> A note on the influence of droplet interchange on evaporation and condensation of multicomponent mixtures in annular flow, Pages 2505-2509 J. R. Barbosa, Jr. , G. F. Hewitt and S. M. Richardson Abstract | Full Text + Links | PDF (117 K)</p><p> Thermal dispersion effect on MHD flow of dusty gas and dust particles through hexagonal channel, Pages 2511-2514 Parveen Sharma and C. L. Varshney Abstract | Full Text + Links | PDF (227 K)</p><p> Volume 46, Issue 12, Pages 2103-2303 (June 2003) 1.</p><p> 2.</p><p> 3.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 4.</p><p> 5.</p><p> The influences of recycle on a double-pass laminar counterflow concentric circular heat exchangers, Pages 2103-2113 Chii-Dong Ho and Wen-Yi Yang Abstract | Full Text + Links | PDF (299 K)</p><p> Three-dimensional double-diffusive convection and macrosegregation during nonequilibrium solidification of binary mixtures, Pages 2115-2134 S. Chakraborty and P. Dutta Abstract | Full Text + Links | PDF (404 K)</p><p> An analytical solution for two-dimensional inverse heat conduction problems using Laplace transform, Pages 2135-2148 Masanori Monde, Hirofumi Arima, Wei Liu, Yuhichi Mitutake and Jaffar A. Hammad Abstract | Full Text + Links | PDF (381 K)</p><p> Role of the contact layer between liquid and solid on a solidification process, Pages 2149-2154 Zygmunt Lipnicki Abstract | PDF (154 K)</p><p> Numerical technique for modeling conjugate heat transfer in an electronic device heat sink, Pages 2155-2168 Andrej Horvat and Ivan Catton Abstract | Full Text + Links | PDF (444 K)</p><p> 6.</p><p> 7.</p><p> 8.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 9.</p><p> 10.</p><p> 11.</p><p> 12.</p><p> 13.</p><p> 14.</p><p> 15.</p><p> Natural convective heat transfer from isothermal cuboids, Pages 2169-2178 Ewa Radziemska and Witold M. Lewandowski Abstract | Full Text + Links | PDF (241 K)</p><p> Two-dimensional model of heat transfer in circulating fluidized beds. Part I: Model development and validation, Pages 2179-2191 D. Xie, B. D. Bowen, J. R. Grace and C. J. Lim Abstract | Full Text + Links | PDF (229 K)</p><p> Two-dimensional model of heat transfer in circulating fluidized beds. Part II: Heat transfer in a high density CFB and sensitivity analysis, Pages 2193-2205 D. Xie, B. D. Bowen, J. R. Grace and C. J. Lim Abstract | Full Text + Links | PDF (415 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Turbulent heat transfer on the stationary disk in a rotor–stator system, Pages 22072218 Z. X. Yuan, N. Saniei and X. T. Yan Abstract | Full Text + Links | PDF (431 K)</p><p> Surfactant effects on passive scalar transport in a fully developed turbulent flow, Pages 2219-2238 R. A. Handler, R. I. Leighton, G. B. Smith and Ryuichi Nagaosa Abstract | Full Text + Links | PDF (573 K)</p><p> Simultaneous visualization of dry spots and bubbles for pool boiling of R-113 on a horizontal heater, Pages 2239-2251 Heung June Chung and Hee Cheon No Abstract | Full Text + Links | PDF (694 K)</p><p> Numerical simulation of developing natural convection in an enclosure due to rapid heating, Pages 2253-2261 Murat K. Aktas and Bakhtier Farouk Abstract | Full Text + Links | PDF (351 K)</p><p> Stability analysis of the perturbed rest state and of the finite amplitude steady double-diffusive convection in a shallow porous enclosure, Pages 2263-2277 Mahmoud Mamou Abstract | Full Text + Links | PDF (1077 K)</p><p> Mist/steam cooling by a row of impinging jets, Pages 2279-2290 X. Li, J. L. Gaddis and T. Wang Abstract | Full Text + Links | PDF (455 K)</p><p> Evaluation of the radiative properties of a dispersed particulate medium for construction material applications, Pages 2291-2303 Bonnie K. Wiseman and Jamil A. Khan Abstract | Full Text + Links | PDF (319 K)</p><p> Abstract | Full Text + Links | PDF (319 K)</p><p> Volume 46, Issue 11, Pages 1887-2101 (May 2003) 1.</p><p> 2.<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3.</p><p> 4.</p><p> 5.</p><p> 6.</p><p> 7.</p><p> 8.</p><p> Heat transfer––a review of 2001 literature, Pages 1887-1992 R. J. Goldstein, E. R. G. Eckert, W. E. Ibele, S. V. Patankar, T. W. Simon, T. H. Kuehn, P. J. Strykowski, K. K. Tamma, J. V. R. Heberlein, J. H. Davidson et al. Abstract | Full Text + Links | PDF (777 K)</p><p> High speed bubbly nozzle flow with heat, mass, and momentum interactions, Pages 1993-2003 David Albagli and Alon Gany Abstract | Full Text + Links | PDF (236 K)</p><p> Solution of radiative heat transfer in a semitransparent slab with an arbitrary refractive index distribution and diffuse gray boundaries, Pages 2005-2014 He-Ping Tan, Yong Huang and Xin-Lin Xia Abstract | Full Text + Links | PDF (280 K)</p><p> Cooling of cylindrical vertical tanks submitted to natural internal convection, Pages 2015-2026 Rejane De Césaro Oliveski, Arno Krenzinger and Horácio A. Vielmo Abstract | Full Text + Links | PDF (269 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Fin–tube junction effects on flow and heat transfer in flat tube multilouvered heat exchangers, Pages 2027-2038 D. K. Tafti and J. Cui Abstract | Full Text + Links | PDF (327 K)</p><p> Effect of mixed convection on transient hydrodynamic removal of a contaminant from a cavity, Pages 2039-2049 Lih-Chuan Fang Abstract | Full Text + Links | PDF (271 K)</p><p> Analytical and experimental investigation on the operational characteristics and the thermal optimization of a miniature heat pipe with a grooved wick structure, Pages 2051-2063 Sung Jin Kim, Joung Ki Seo and Kyu Hyung Do Abstract | Full Text + Links | PDF (285 K)</p><p> Determination of a heat source in porous medium with convective mass diffusion by an inverse method, Pages 2065-2075 M. Prud'homme and S. Jasmin Abstract | Full Text + Links | PDF (299 K)</p><p> 9.</p><p> 10.</p><p> 11.</p><p> On the impingement heat transfer of an oblique free surface plane jet, Pages 20772085 Albert Y. Tong Abstract | Full Text + Links | PDF (208 K)</p><p> 3D numerical modeling of non-isotropic turbulent buoyant helicoidal flow and heat transfer in a curved open channel, Pages 2087-2093 Yong-Ming Shen, Chiu-On Ng and Hao-Qing Ni Abstract | Full Text + Links | PDF (158 K)</p><p> Study on transport phenomena for flow film condensation in vertical mini-tube with interfacial waves, Pages 2095-2101 Xiao-Ze Du and Bu-Xuan Wang Abstract | Full Text + Links | PDF (203 K)<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 46 (10) 2003 Fitting the duct to the ''body'' of the convective flow T. Bello-Ochende, A. Bejan</p><p> 1693 -- 1701</p><p> Simultaneous visualization of flow field and evaluation of local heat transfer by transitional impinging jets M. Angioletti, R.M. Di Tommaso, E. Nino, G. Ruocco</p><p> 1703 -- 1713</p><p> Mass transfer into liquid falling film in straight and helically coiled tubes M.S. Hameed, M. Saleh Muhammed</p><p> 1715 -- 1724</p><p> Mixed convection within a porous heat generating horizontal annulus K. Khanafer, A.J. Chamkha</p><p> 1725 -- 1735</p><p> Flow efficiency in multi-louvered fins X. Zhang, D.K. Tafti</p><p> 1737 -- 1750<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Transient mixed radiative convection flow of a micropolar fluid past a moving, semi-infinite vertical porous plate Y.J. Kim, A.G. Fedorov</p><p> 1751 -- 1758</p><p> Effect of surface tension on convection in a binary fluid layer under a zero gravity environment A. Bahloul, R. Delahaye, P. Vasseur, L. Robillard</p><p> 1759 -- 1771</p><p> One-dimensional drift-flux model for two-phase flow in a large diameter pipe T. Hibiki, M. Ishii</p><p> 1773 -- 1790</p><p> Numerical solution of the phase change problem around a horizontal cylinder in the presence of natural convection in the melt region K.A.R. Ismail, M.d.G.E. da Silva</p><p> 1791 -- 1799</p><p> Non-iterative estimation of temperature-dependent thermal conductivity without internal measurements S. Kim, M.C. Kim, K.Y. Kim</p><p> 1801 -- 1810<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Large eddy simulation of heat and mass transport in turbulent flows. Part 1: Velocity field F.A. Jaberi, P.J. Colucci</p><p> 1811 -- 1825</p><p> Large eddy simulation of heat and mass transport in turbulent flows. Part 2: Scalar 1827 -- 1840 field F.A. Jaberi, P.J. Colucci Saturation boiling of HFE-7100 from a copper surface, simulating a microelectronic chip M.S. EL-Genk, H. Bostanci</p><p> 1841 -- 1854</p><p> On the explicit analytic solution of Cheng-Chang equation C. Wang, J.M. Zhu, S.J. Liao, I. Pop</p><p> 1855 -- 1860</p><p> Evaporative characteristics of R-134a and R-600a in horizontal tubes with perforated strip-type inserts S.-S. Hsieh, K.-J. Jang, H.-H. Tsai</p><p> 1861 -- 1872</p><p> Gas jet heat release inside a cylindrical cavity K. Kessaev, R. Vidal, M. Niwa</p><p> 1873 -- 1878<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 1/f noise and self-organized criticality in crisis regimes of heat and mass transfer 1879 -- 1883 V.N. Skokov, V.P. Koverda, A.V. Reshetnikov, V.P. Skripov, N.A. Mazheiko, A.V. Vinogradov Constructal comment on a Fermat-type principle for heat flow A. Bejan</p><p> 1885 -- 1886</p><p> Volume (issue): 46 (9) 2003 Numerical simulations of hydrodynamics and convective heat transfer in a turbulent tube mist flow V.I. Terekhov, M.A. Pakhomov</p><p> 1503 -- 1517</p><p> Nonlinear analysis on fluctuation feature of two-phase flow through a T-junction S.F. Wang, R. Mosdorf, M. Shoji</p><p> 1519 -- 1528</p><p> Large eddy simulation of turbulent channel flow with mass transfer at highSchmidt numbers Y.-H. Dong, X.-Y. Lu, L.-X. Zhuang</p><p> 1529 -- 1539</p><p> Bejan's constructal theory of equal potential distribution J. Lewins</p><p> 1541 -- 1543<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Finite element modeling of the porosity formation in castings I.H. Katzarov</p><p> 1545 -- 1552</p><p> Three-dimensional numerical optimization of a manifold microchannel heat sink J.H. Ryu, D.H. Choi, S.J. Kim</p><p> 1553 -- 1562</p><p> Conjugate heat transfer in inclined open shallow cavities O. Polat, E. Bilgen</p><p> 1563 -- 1573</p><p> Effect of the history term on the transient energy equation for a sphere M. Gay, E.E. Michaelides</p><p> 1575 -- 1586</p><p> An inverse problem of parameter estimation for heat and mass transfer in capillary 1587 -- 1598 porous media L.B. Dantas, H.R.B. Orlande, R.M. Cotta Magnetic field effects upon heat transfer for laminar flow of electrically conducting liquid over a melting slab</p><p> 1599 -- 1605<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> R.V. Seeniraj, N.P. Kannan Thermal waves propagation in porous material undergoing thermal loading A. Sluzalec</p><p> 1607 -- 1611</p><p> Direct numerical simulation of heated vertical air flows in fully developed turbulent mixed convection J. You, J.Y. Yoo, H. Choi</p><p> 1613 -- 1627</p><p> Effects of internal radiation on heat flow and facet formation in Bridgman growth of YAG crystals C.W. Lan, C.Y. Tu, Y.F. Lee</p><p> 1629 -- 1640</p><p> Effect of thermocapillary convection in an industrial Czochralski crucible: numerical simulation V. Kumar, G. Biswas, G. Brenner, F. Durst</p><p> 1641 -- 1652</p><p> 3D modeling of evaporation of water injected into a plasma jet K. Ramachandran, T. Sato, H. Nishiyama</p><p> 1653 -- 1663<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Mass transfer in field of fast-moving deformation disturbance G.L. Buchbinder</p><p> 1665 -- 1673</p><p> Laminar free-convection in glycerol with variable physical properties adjacent to a vertical plate with uniform heat flux A. Pantokratoras</p><p> 1675 -- 1678</p><p> On the non-stationary evaporation kinetics. - I. Mathematical model and experimental data C. Boyadjiev, B. Boyadjiev</p><p> 1679 -- 1685</p><p> On the non-stationary evaporation kinetics. II. Stability B. Boyadjiev, C. Boyadjiev</p><p> 1687 -- 1692</p><p> Volume (issue): 46 (8) 2003 Unified streamline, heatline and massline methods for the visualization of twodimensional heat and mass transfer in anisotropic media V.A.F. Costa</p><p> 1309 -- 1320<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Minimization of entropy generation by asymmetric convective cooling G. Ibanez, S. Cuevas, M. Lopez de Haro</p><p> 1321 -- 1328</p><p> Heat conduction across irregular and fractal-like surfaces M.G. Blyth, C. Pozrikidis</p><p> 1329 -- 1339</p><p> Structure of mixed convective longitudinal vortex air flow driven by a heated circular plate embedded in the bottom of a horizontal flat duct J.L. Tuh, T.F. Lin</p><p> 1341 -- 1357</p><p> Fully developed electro-osmotic heat transfer in microchannels D. Maynes, B.W. Webb</p><p> 1359 -- 1369</p><p> Stability analysis for three-dimensional Rayleigh-Benard convection with radiatively participating medium using spectral methods C.H. Lan, O.A. Ezekoye, J.R. Howell, K.S. Ball</p><p> 1371 -- 1383<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Heat transfer in subcooled jet impingement boiling at high wall temperatures W. Timm, K. Weinzierl, A. Leipertz</p><p> 1385 -- 1393</p><p> W. Timm, K. Weinzierl, A. Leipertz Interactions between molten metal droplets impinging on a solid surface R. Ghafouri-Azar, S. Shakeri, S. Chandra, J. Mostaghimi</p><p> 1395 -- 1407</p><p> Modeling of bubble-layer thickness for formulation of one-dimensional interfacial area transport equation in subcooled boiling two-phase flow T. Hibiki, R. Situ, Y. Mi, M. Ishii</p><p> 1409 -- 1423</p><p> Periodicity and bifurcations in capillary tube boiling with a concentric heating wire N. Acharya, M. Sen, E. Ramos</p><p> 1425 -- 1442</p><p> The reactive thermal conductivity for a two-temperature plasma X. Chen, H.-P. Li</p><p> 1443 -- 1454<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Unsteady heat conduction in two-dimensional two slab-shaped regions. Exact closed-form solution and results F. de Monte</p><p> 1455 -- 1469</p><p> Effect of suction/injection on the flow of a micropolar fluid past a continuously moving plate in the presence of radiation H.A.M. El-Arabawy</p><p> 1471 -- 1477</p><p> Local flow measurements of vertical upward bubbly flow in an annulus T. Hibiki, R. Situ, Y. Mi, M. Ishii</p><p> 1479 -- 1496</p><p> On the perturbation method for the Stefan problem with time-dependent boundary conditions J. Caldwell, Y.Y. Kwan</p><p> 1497 -- 1501</p><p> Volume (issue): 46 (7) 2003 Studies on turbulent momentum, heat and species transport during binary alloy solidification in a top-cooled rectangular cavity S. Chakraborty, N. Chakraborty, P. Kumar, P. Dutta</p><p> 1115 -- 1137<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Analysis of forced convection heat transfer to supercritical carbon dioxide inside tubes using neural networks G. Scalabrin, L. Piazza</p><p> 1139 -- 1154</p><p> Inverse influence of initial diameter on droplet burning rate in cold and hot ambiences: a thermal action of flame in balance with heat loss G. Xu, M. Ikegami, S. Honma, K. Ikeda, X. Ma, H. Nagaishi, D.L. Dietrich, P.M. Struk</p><p> 1155 -- 1169</p><p> Study on point of net vapor generation by neutron radiography in subcooled boiling flow along narrow rectangular channels with short heated length M. Kureta, T. Hibiki, K. Mishima, H. Akimoto</p><p> 1171 -- 1181</p><p> A direct three-dimensional simulation of radiation-induced natural convection in a shallow wedge C. Lei, J.C. Patterson</p><p> 1183 -- 1197</p><p> Experimental and numerical analysis of the temperature transition of a suspended freezing water droplet J.P. Hindmarsh, A.B. Russell, X.D. Chen</p><p> 1199 -- 1213<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Geometric and aero-thermal influences on multiholed plate temperature: application combustor wall B. Leger, P. on Miron, J.M. Emidio</p><p> 1215 -- 1222</p><p> B. Leger, P. Miron, J.M. Emidio Nucleate pool boiling characteristics from coated tube bundles in saturated R-134a S.-S. Hsieh, G.-Z. Huang, H.-H. Tsai</p><p> 1223 -- 1239</p><p> Cooling enhancement in an air-cooled finned heat exchanger by thin water film evaporation C. Ho Song, D.-Y. Lee, S. Tack Ro</p><p> 1241 -- 1249</p><p> Nonlinear coupling between thermal mass and natural ventilation in buildings J. Yam, Y. Li, Z. Zheng</p><p> 1251 -- 1264</p><p> Aerodynamic and mass transfer characteristics of an annular bistable impinging jet with a fluidic flip-flop control Z. Travncek, K. Peszynski, J. Hosek, S. Wawrzyniak</p><p> 1265 -- 1278<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Investigation of the evaporation of embedded liquid droplets from porous surfaces using magnetic resonance imaging N.C. Reis, R.F. Griffiths, M.D. Mantle, L.F. Gladden</p><p> 1279 -- 1292</p><p> Pore network simulations of drying of capillary porous media. Influence of thermal gradients F. Plourde, M. Prat</p><p> 1293 -- 1307</p><p> Volume (issue): 46 (5) 2003 Heat transfer analysis of mutually irradiating fins C.K. Krishnaprakas, K. Badari Narayana</p><p> 761 -- 769</p><p> Calculation of turbulent flow and heat transfer in a porous-baffled channel Y.-T. Yang, C.-Z. Hwang</p><p> 771 -- 780</p><p> Influence of anisotropy on convection in porous media with nonuniform thermal gradient G. Degan, P. Vasseur</p><p> 781 -- 789<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Three-dimensional convective cooling in a vertical channel with flush-mounted heat sources H. Gunes, A. Liakopoulos</p><p> 791 -- 808</p><p> Three-dimensional computational analysis of gas and heat transport phenomena in ducts relevant for anode-supported solid oxide fuel cells J. Yuan, M. Rokni, B. Sunden</p><p> 809 -- 821</p><p> Turbulent heat transfer and flow characteristics in a horizontal circular tube with strip-type inserts. Part I. Fluid mechanics S.-S. Hsieh, F.-Y. Wu, H.-H. Tsai</p><p> 823 -- 835</p><p> Turbulent heat transfer and flow characteristics in a horizontal circular tube with strip-type inserts. Part II. Heat transfer S.-S. Hsieh, M.-H. Liu, H.-H. Tsai</p><p> 837 -- 849</p><p> Pool boiling characteristics of nano-fluids S.K. Das, N. Putra, W. Roetzel</p><p> 851 -- 862<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Bubble sweeping and jet flows during nucleate boiling of subcooled liquids H. Wang, X.F. Peng, B.X. Wang, D.J. Lee</p><p> 863 -- 869</p><p> Performance of finned tube heat exchangers operating under frosting conditions W.-M. Yan, H.-Y. Li, Y.-J. Wu, J.-Y. Lin, W.-R. Chang</p><p> 871 -- 877</p><p> Real-time laser-based measurement of interface temperature during droplet impingement on a cold surface Q. Chen, Y. Li, J.P. Longtin</p><p> 879 -- 888</p><p> Friction and heat transfer characteristics of flow through square duct with twisted tape insert S. Ray, A.W. Date</p><p> 889 -- 902</p><p> Temperature effect on single bubble rise characteristics in stagnant distilled water T. Okawa, T. Tanaka, I. Kataoka, M. Mori</p><p> 903 -- 913<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Exact solution of the problem of gas segregation in the process of crystallization A.I. Fedorchenko, A.A. Chernov</p><p> 915 -- 919</p><p> Simulation of the microstructure of a thin metal layer quenched from a liquid state A.I. Fedorchenko, A.A. Chernov</p><p> 921 -- 929</p><p> Explicit analytical solutions of 2-D laminar natural convection R. Cai, N. Zhang</p><p> 931 -- 934</p><p> Critical view on ''new results in micro-fluid mechanics'': an example H. Herwig, O. Hausner</p><p> 935 -- 937</p><p> Volume (issue): 46 (4) 2003 Transient behaviors of ignition of premixed stagnation-point flows with catalytic reactions W.J. Sheu, C.J. Sun</p><p> 577 -- 587<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Viscous dissipation effects on the asymptotic behaviour of laminar forced convection for Bingham plastics in circular ducts R. Khatyr, D. Ouldhadda, A. Il Idrissi</p><p> 589 -- 598</p><p> TVD schemes for unstructured grids M.S. Darwish, F. Moukalled</p><p> 599 -- 611</p><p> Bifurcation and stability of combined free and forced convection in rotating curved ducts of square cross-section T. Yang, L. Wang</p><p> 613 -- 629</p><p> Analysis of flow and heat transfer inside oscillatory squeezed thin films subject to a varying clearance A.-R.A. Khaled, K. Vafai</p><p> 631 -- 641</p><p> Thermally developing forced convection in a porous medium: parallel plate channel with walls at uniform temperature, with axial conduction and viscous dissipation effects D.A. Nield, A.V. Kuznetsov, M. Xiong</p><p> 643 -- 651<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Effect of rotation on heat transfer in two-pass square channels with five different orientations of 45o angled rib turbulators L. Al-Hadhrami, J.-C. Han</p><p> 653 -- 669</p><p> Startup of a horizontal lithium-molybdenum heat pipe from a frozen state J.-M. Tournier, M.S. El-Genk</p><p> 671 -- 685</p><p> The radiative transfer solution of a rectangular enclosure using angular domain discrete wavelets O. Guven, Y. Bayazitoglu</p><p> 687 -- 694</p><p> Analytical and numerical studies on viscous energy dissipation in laterally driven microcomb structures C.-S. Chen, C.-F. Chou</p><p> 695 -- 704</p><p> Dynamic behaviour of one-dimensional flow multistream heat exchangers and their networks X. Luo, X. Guan, M. Li, W. Roetzel</p><p> 705 -- 715<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Calculation of temperature field in a thin moving sheet heated with laser beam R. Brockmann, K. Dickmann, P. Geshev, K.-J. Matthes</p><p> 717 -- 723</p><p> Laminar free-convection in water with variable physical properties adjacent to a vertical plate with uniform heat flux A. Pantokratoras</p><p> 725 -- 729</p><p> Transient coupled heat transfer in multilayer composite with one specular boundary coated H.-P. Tan, J.-F. Luo, X.-L. Xia, Q.-Z. Yu</p><p> 731 -- 747</p><p> Numerical study of stratified oil-water two-phase turbulent flow in a horizontal tube H. Gao, H.-Y. Gu, L.-J. Guo</p><p> 749 -- 754</p><p> Frictional performance of R-22 and R-410A inside a 5.0 mm wavy diameter tube C.-C. Wang, I. Youn Chen, H.-J. Shyu</p><p> 755 -- 760<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 46 (3) 2003 Influence of gas emission on heat transfer in porous ceramics T. Gambaryan-Roisman, M. Shapiro, E. Litovsky, A. Shavit</p><p> 385 -- 397</p><p> Heat transfer and bubble characteristics in a fluidized bed with immersed horizontal tube bundle S.W. Kim, J.Y. Ahn, S.D. Kim, D. Hyun Lee</p><p> 399 -- 409</p><p> Study of heat transfer for a pair of rectangular jets impinging on an inclined surface S. Roy, P. Patel</p><p> 411 -- 425</p><p> Experimental study on interfacial area transport in vertical upward bubbly twophase flow in an annulus T. Hibiki, R. Situ, Y. Mi, M. Ishii</p><p> 427 -- 441</p><p> Localized flow and heat transfer interactions in louvered-fin arrays N.C. DeJong, A.M. Jacobi</p><p> 443 -- 455<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Gas absorption into ''string-of-beads'' liquid flow with chemical reaction: application to carbon dioxide separation K. Uchiyama, H. Migita, R. Ohmura, Y.H. Mori</p><p> 457 -- 468</p><p> Heat transfer predictions with a cubic k-_ model for axisymmetric turbulent jets impinging onto a flat plate B. Merci, E. Dick</p><p> 469 -- 480</p><p> Heat transfer and friction behaviors in rectangular channels with varying number of ribbed walls P.R. Chandra, C.R. Alexander, J.C. Han</p><p> 481 -- 495</p><p> Chimney-enhanced natural convection from a vertical plate: experiments and numerical simulations S. Kazansky, V. Dubovsky, G. Ziskind, R. Letan</p><p> 497 -- 512</p><p> Nucleation site interaction in pool boiling on the artificial surface L. Zhang, M. Shoji</p><p> 513 -- 522<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> The effect of laser light propagation through a self-induced inhomogeneous process gas on temperature dependent laser-assisted chemical etching J.S. Hammonds, M.A. Shannon</p><p> 523 -- 534</p><p> Experimental investigation of the transient impact fluid dynamics and solidification of a molten microdroplet pile-up S. Haferl, D. Poulikakos</p><p> 535 -- 550</p><p> Time-periodic laminar mixed convection in an inclined channel A. Barletta, E. Zanchini</p><p> 551 -- 563</p><p> Modele predictif de resistance thermique de contact dynamique adapte au cas de l_interface piece-outil de forgeage B. Bourouga, V. Goizet, J.P. Bardon</p><p> 565 -- 576</p><p> Volume (issue): 46 (2) 2003 Heat transfer bibliography - Japanese work 2000</p><p> 193 -- 206<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Hydrodynamics and heat transfer in bubbly flow in the turbulent boundary layer D. Mikielewicz</p><p> 207 -- 220</p><p> Film cooling characteristics of a single round hole at various streamwise angles in a crossflow: Part I effectiveness C.H.N. Yuen, R.F. Martinez-Botas</p><p> 221 -- 235</p><p> Film cooling characteristics of a single round hole at various streamwise angles in a crossflow - Part II: heat transfer coefficients C.H.N. Yuen, R.F. Martinez-Botas</p><p> 237 -- 249</p><p> Streamline upwind numerical simulation of two-dimensional confined impinging slot jets T.H. Park, H.G. Choi, J.Y. Yoo, S.J. Kim</p><p> 251 -- 262</p><p> Impingement heat transfer in an under-expanded axisymmetric air jet M. Rahimi, I. Owen, J. Mistry</p><p> 263 -- 272<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Experimental study on the kinetics of water vapor sorption on selective water sorbents, silica gel and alumina under typical operating conditions of sorption heat pumps B. Dawoud, Y. Aristov</p><p> 273 -- 281</p><p> Effects of gravity and ambient pressure on liquid fuel droplet evaporation G. Gogos, S. Soh, D.N. Pope</p><p> 283 -- 296</p><p> Convection in a horizontal rectangular duct under constant and variable property formulations</p><p> 297 -- 310</p><p> Q. Wang, H. Yoo, Y. Jaluria The interaction between internal heat loss and external heat loss on the extinction of stretched spray flames with nonunity Lewis number S.-S. Hou</p><p> 311 -- 322</p><p> Linear stability of cold water layer saturating an anisotropic porous medium--effect of confinement A. Mahidjiba, L. Robillard, P. Vasseur</p><p> 323 -- 332<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Use of the microscopic parabolic heat conduction model in place of the macroscopic model validation criterion under harmonic boundary heating M.A. Al-Nimr, M. Hader, M. Naji</p><p> 333 -- 339</p><p> Transient natural convection and conjugate transients around a line heat source M.-C. Duluc, S. Xin, P.L. Quere</p><p> 341 -- 354</p><p> Onset of transient nucleate boiling from a thick flat sample S. Heas, H. Robidou, M. Raynaud, M. Lallemand</p><p> 355 -- 365</p><p> On modelling the multidimensional coupled fluid flow and heat or mass transport in porous media A. Younes</p><p> 367 -- 379</p><p> Thermal convection in a vertical porous slot with spatially periodic boundary temperatures: low Ra flow J.-S. Yoo</p><p> 381 -- 384<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 46 (1) 2003 Publishers announcement Heat transfer bibliography--Japanese work 1999</p><p> 1 -- 2 3 -- 14</p><p> A heat transfer model for deep penetration laser welding based on an actual keyhole X. Jin, L. Li, Y. Zhang</p><p> 15 -- 22</p><p> Effect of pressure, subcooling, and dissolved gas on pool boiling heat transfer from microporous, square pin-finned surfaces in FC-72 K.N. Rainey, S.M. You, S. Lee</p><p> 23 -- 35</p><p> Molecular dynamics calculation of heat dissipation during sliding friction B. Li, P.C. Clapp, J.A. Rifkin, X.M. Zhang</p><p> 37 -- 43</p><p> Molecular dynamics simulation of thermal and thermomechanical phenomena in picosecond laser material interaction X. Wang, X. Xu</p><p> 45 -- 53<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Study of heat transfer in multilayered structure within the framework of dual-phase-lag heat conduction model using lattice Boltzmann method J.-R. Ho, C.-P. Kuo, W.-S. Jiaung</p><p> 55 -- 69</p><p> Experimental investigations on heat transfer from suspension to impact separators in the riser column of a circulating fluidized bed combustor N.S. Winaya, P. Basu, B.V. Reddy</p><p> 71 -- 75</p><p> Coalescence collision of liquid drops F. Mashayek, N. Ashgriz, W.J. Minkowycz, B. Shotorban</p><p> 77 -- 89</p><p> Laminar fluid flow and mass transfer in a standard field and laboratory emission cell L.Z. Zhang, J.L. Niu</p><p> 91 -- 100</p><p> Shape design for a cylinder with uniform temperature distribution on the outer surface by inverse heat transfer method C.-H. Cheng, M.-H. Chang</p><p> 101 -- 111<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Heat transfer of a row of three butane/air flame jets impinging on a flat plate L.L. Dong, C.W. Leung, C.S. Cheung</p><p> 113 -- 125</p><p> Three-dimensional numerical simulation of natural convection in an inclined liquidfilled enclosure with an array of discrete heaters S.K.W. Tou, X.F. Zhang</p><p> 127 -- 138</p><p> Boiling curve in temperature wave region B.A. Gabaraev, S.A. Kovalev, Y.S. Molochnikov, S.L. Soloviev, S.V. Usatikov</p><p> 139 -- 148</p><p> Size effect on microscale single-phase flow and heat transfer Z.-Y. Guo, Z.-X. Li</p><p> 149 -- 159</p><p> Predicting turbulence and heat transfer in 3-D curved ducts by near-wall second moment closures K. Suga</p><p> 161 -- 173<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Heat transfer and pressure loss penalty for the number of tube rows of staggered finned-tube bundles with a single transverse row of winglets K.M. Kwak, K. Torii, K. Nishino</p><p> 175 -- 180</p><p> On the treatment of open boundary condition for radiative transfer equation L.H. Liu, L.M. Ruan, H.P. Tan</p><p> 181 -- 183</p><p> Comment on the paper by Qi-Hong Deng, Guang-Fa Tang, ''Numerical visualization of mass and heat transport for conjugate natural convection/heat conduction by streamline and heatline'' - IJHMT 45 (11) (2002) 2373-2385 V.A.F. Costa</p><p> 185 -- 186</p><p> Reply to V.A.F. Costa's comment Q.-H. Deng</p><p> 187 -- 187</p><p> 'Hydrodynamique physique' by E. Guyon, J.P. Hulin, L. Petit, EDP Sciences, 2002, 674 pp., 53.35 Euros, paperback, ISBN 2-86883-502-3. H. Peerhossaini</p><p> 189 -- 191<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 45 (26) 2002 Experimental study of mixed convection and pressure drop in helically dimpled tubes for laminar and transition flow P.G. Vicente, A. Garca, A. Viedma</p><p> 5091 -- 5105</p><p> Flow and heat transfer inside thin films supported by soft seals in the presence of internal and external pressure pulsations A.-R.A. Khaled, K. Vafai</p><p> 5107 -- 5115</p><p> Interaction between discrete heat sources in horizontal natural convection enclosures Q.-H. Deng, G.-F. Tang, Y. Li, M.Y. Ha</p><p> 5117 -- 5132</p><p> Numerical computation of fluid flow and heat transfer in microchannels</p><p> 5133 -- 5141</p><p> K.C. Toh, X.Y. Chen, J.C. Chai Onset of Marangoni instability of a two-component evaporating droplet V.-M. Ha, C.-L. Lai</p><p> 5143 -- 5158<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> A general model for studying effects of interface layers on thermoelectric devices performance X.C. Xuan, K.C. Ng, C. Yap, H.T. Chua</p><p> 5159 -- 5170</p><p> Mixed convection heat transfer in two-dimensional open-ended enclosures K. Khanafer, K. Vafai, M. Lightstone</p><p> 5171 -- 5190</p><p> Evolution of convection pattern during the solidification process of a binary mixture: effect of initial solutal concentration P.V. Skudarnov, C.X. Lin, M.H. Wang, N. Pradeep, M.A. Ebadian</p><p> 5191 -- 5200</p><p> On the surface tension corrections in nonuniform and nonequilibrium liquid-gas systems S.P. Malyshenko, D.O. Dunikov</p><p> 5201 -- 5208</p><p> Heat transfer and phase change of liquid in an inclined enclosure packed with unsaturated porous media W. Liu, S. Shen, S.B. Riffat</p><p> 5209 -- 5219<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Dynamical energy limits in traditional and work-driven operations II. - Systems with heat and mass transfer S. Sieniutycz, M. Kubiak</p><p> 5221 -- 5238</p><p> Radiative transfer in one-dimensional hollow cylindrical geometry with anisotropic scattering and variable medium properties Z. Altac</p><p> 5239 -- 5242</p><p> Volume (issue): 45 (25) 2002 Optimal tree-shaped networks for fluid flow in a disc-shaped body W. Wechsatol, S. Lorente, A. Bejan</p><p> 4911 -- 4924</p><p> Heat exchange in an attic space P.M. Haese, M.D. Teubner</p><p> 4925 -- 4936</p><p> Instability of subcooled boiling film on a vertical wall B.Y. Rubinstein, S.G. Bankoff, S.H. Davis</p><p> 4937 -- 4948<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Effect of local thermal non-equilibrium on thermally developing forced convection in a porous medium D.A. Nield, A.V. Kuznetsov, M. Xiong</p><p> 4949 -- 4955</p><p> Heat transfer enhancement from enclosed discrete components using pin-fin heat sinks E. Yu, Y. Joshi</p><p> 4957 -- 4966</p><p> Experimental determination of the interfacial heat transfer during cooling and solidification of molten metal droplets impacting on a metallic substrate: effect of roughness and superheat G.-X. Wang, E.F. Matthys</p><p> 4967 -- 4981</p><p> Thermocapillary convection with undeformable curved surfaces in open cylinders B.-C. Sim, A. Zebib</p><p> 4983 -- 4994</p><p> Liquid-solid separation phenomena of two-phase turbulent flow in curved pipes H. Gao, L. Guo, X. Zhang</p><p> 4995 -- 5005<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Computations of flow and heat transfer in a three-dimensional multilouvered fin geometry J. Cui, D.K. Tafti</p><p> 5007 -- 5023</p><p> An experimental investigation of convection heat transfer to supercritical carbon dioxide in miniature tubes S.M. Liao, T.S. Zhao</p><p> 5025 -- 5034</p><p> Performance of the herringbone wavy fin under dehumidifying conditions Y.-T. Lin, Y.-M. Hwang, C.-C. Wang</p><p> 5035 -- 5044</p><p> Power laws for sizes and growth times of double-diffusive convection cells K. Kotter, M. Markus</p><p> 5045 -- 5051</p><p> Energetic budget on an evaporating monodisperse droplet stream using combined optical methods - Evaluation of the convective heat transfer G. Castanet, P. Lavieille, F. Lemoine, M. Lebouche, A. Atthasit, Y. Biscos, G. Lavergne</p><p> 5053 -- 5067<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Spectrally correlated radiation and laminar forced convection in the entrance region of a circular duct E. Sediki, A. Soufiani, M.S. Sifaoui</p><p> 5069 -- 5081</p><p> Neural network analysis of boiling heat transfer enhancement using additives T. Liu, X. Sun, X. Li, H. Wang</p><p> 5083 -- 5089</p><p> Volume (issue): 45 (24) 2002 Influence of dispersion forces on phase equilibria between thin liquid films and their vapour K. Stephan</p><p> 4715 -- 4725</p><p> On the transition from partial to fully developed subcooled flow boiling V. Prodanovic, D. Fraser, M. Salcudean</p><p> 4727 -- 4738</p><p> Performance analysis and optimization of straight taper fins with variable heat transfer coefficient B. Kundu, P.K. Das</p><p> 4739 -- 4751<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Two-fluid large-eddy simulation approach for particle-laden turbulent flows R.V.R. Pandya, F. Mashayek</p><p> 4753 -- 4759</p><p> High-speed visualization of boiling from an enhanced structure C. Ramaswamy, Y. Joshi, W. Nakayama, W.B. Johnson</p><p> 4761 -- 4771</p><p> Optimization of the design factors for thermal performance of a parallel-flow heat exchanger K. Chung, K.-S. Lee, W.-S. Kim</p><p> 4773 -- 4780</p><p> Effect of carbon-fiber brushes on conductive heat transfer in phase change materials J. Fukai, Y. Hamada, Y. Morozumi, O. Miyatake</p><p> 4781 -- 4792</p><p> Sharp-interface simulation of dendritic solidification of solutions H.S. Udaykumar, L. Mao</p><p> 4793 -- 4808<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> PIV flow measurements for heat transfer characterization in two-pass square channels with smooth and 90o ribbed walls S.Y. Son, K.D. Kihm, J.-C. Han</p><p> 4809 -- 4822</p><p> Boiling heat transfer characteristics of R-113 in a vertical small diameter tube under natural circulation condition C. Feroz Md, F. Kaminaga</p><p> 4823 -- 4829</p><p> Numerical simulation of steady state heat transfer in a ceramic-coated gas turbine blade N. Asok Kumar, S.R. Kale</p><p> 4831 -- 4845</p><p> Conductivity of granular media with stagnant interstitial fluids via thermal particle 4847 -- 4856 dynamics simulation W.L. Vargas, J.J. McCarthy Analysis of microchannel heat sinks for electronics cooling C.Y. Zhao, T.J. Lu</p><p> 4857 -- 4869</p><p> A unified analysis on enhancing single phase convective heat transfer with field synergy principle W.Q. Tao, Y.L. He, Q.W. Wang, Z.G. Qu, F.Q. Song</p><p> 4871 -- 4879<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> A fixed-grid finite element based enthalpy formulation for generalized phase change problems: role of superficial mushy region M. Bhattacharya, T. Basak, K.G. Ayappa</p><p> 4881 -- 4898</p><p> Measurements of turbulent mass transport of a circular wall jet Herlina, A.W.-K. Law</p><p> 4899 -- 4905</p><p> Emissive power of semitransparent spherical particle with nonuniform temperature L.H. Liu, B.X. Li, H.P. Tan, Q.Z. Yu</p><p> 4907 -- 4910</p><p> Volume (issue): 45 (23) 2002 Role of length scales on microwave thawing dynamics in 2D cylinders T. Basak, K.G. Ayappa</p><p> 4543 -- 4559</p><p> Splashing of molten tin droplets on a rough steel surface S. Shakeri, S. Chandra</p><p> 4561 -- 4575<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Linear stability analysis of the solidification of a supercooled liquid in a half-space R.A. Lambert, R.H. Rangel</p><p> 4577 -- 4587</p><p> An experimental and theoretical study of the effects of heat conduction through the support fiber on the evaporation of a droplet in a weakly convective flow J.-R. Yang, S.-C. Wong</p><p> 4589 -- 4598</p><p> Boiling incipience in microchannels S.M. Ghiaasiaan, R.C. Chedester</p><p> 4599 -- 4606</p><p> Dendritic constructal heat exchanger with small-scale crossflows and larger-scales counterflows A. Bejan</p><p> 4607 -- 4620</p><p> Combined thermocapillary and natural convection in rectangular containers with localized heating</p><p> 4621 -- 4630<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> K.-J. Lee, Y. Kamotani, S. Yoda A study of the effect of ultrasonic vibrations on phase-change heat transfer Y.K. Oh, S.H. Park, Y.I. Cho</p><p> 4631 -- 4641</p><p> An inverse problem in simultaneous estimating the Biot numbers of heat and moisture transfer for a porous material C.-H. Huang, C.-Y. Yeh</p><p> 4643 -- 4653</p><p> Heat transfer characteristics of a two-phase closed thermosyphon to the fill charge ratio Y.J. Park, H.K. Kang, C.J. Kim</p><p> 4655 -- 4661</p><p> Simultaneous estimation of extinction coefficient distribution, scattering albedo and 4663 -- 4674 phase function of a two-dimensional medium N.-R. Ou, C.-Y. Wu Thermodynamics bifurcations of boiling structure L.H. Chai, M. Shoji</p><p> 4675 -- 4682</p><p> Evaporative cooling of water in a natural draft cooling tower S.P. Fisenko, A.I. Petruchik, A.D. Solodukhin</p><p> 4683 -- 4694<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Solutocapillary convection in the float-zone process with a strong magnetic field J.S. Walker, P. Dold, A. Croll, M.P. Volz, F.R. Szofran</p><p> 4695 -- 4702</p><p> Creeping flow of a polymeric liquid passing over a transverse slot with viscous dissipation G.H. Wu, Y.M. Lin</p><p> 4703 -- 4711</p><p> Announcement: Computational thermal radiation in participating media</p><p> 4713 -- 4713</p><p> Volume (issue): 45 (22) 2002 Heat and Mass Transfer Bibliography - CIS Works</p><p> 4381 -- 4399</p><p> Experimental studies of combined heat transfer in turbulent mixed convection fluid 4401 -- 4408 flows in double-skin-facades A. Zollner, E.R.F. Winter, R. Viskanta Pool boiling heat transfer in binary mixtures of ammonia/water T. Inoue, M. Monde, Y. Teruya</p><p> 4409 -- 4415<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Effects of flow obstacles on the critical heat flux in a vertical tube cooled with upward flow of R-134a I.L. Pioro, D.C. Groeneveld, S.S. Doerffer, Y. Guo, S.C. Cheng, A. Vasic</p><p> 4417 -- 4433</p><p> Comparison of CHF measurements in horizontal and vertical tubes cooled with R- 4435 -- 4450 134a I.L. Pioro, D.C. Groeneveld, L.K.H. Leung, S.S. Doerffer, S.C. Cheng, Y.V. Antoshko, Y. Guo, A. Vasic Mixing and film cooling in supersonic duct flows V. Schuchkin, M. Osipov, W. Shyy, S. Thakur</p><p> 4451 -- 4461</p><p> Experimental and theoretical study of orientation effects on flow boiling CHF H. Zhang, I. Mudawar, M.M. Hasan</p><p> 4463 -- 4477</p><p> An experimental investigation into the heat transfer on wing walls in a circulating fluidized bed boiler</p><p> 4479 -- 4491</p><p> fluidized bed boiler A. Dutta, P. Basu Numerical simulation of turbulent flow field and heat transfer in a two-dimensional 4493 -- 4505 channel with periodic slit ribs T.-M. Liou, S.-H. Chen, K.-C. Shih Mass transfer by free and forced convection from single spherical liquid drops M. Adekojo Waheed, M. Henschke, A. Pfennig</p><p> 4507 -- 4514<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Photoacoustic detection of drug diffusion into a membrane: theory and numerical analysis J. Bodzenta, R.J. Bukowski, A. Christ, T. Pogoda</p><p> 4515 -- 4523</p><p> Convective heat transfer to temperature dependent property fluids in the entry region of corrugated tubes S. Rainieri, G. Pagliarini</p><p> 4525 -- 4536</p><p> Feedback control of the instability of a fluid layer flowing down a vertical cylinder X.Y. You</p><p> 4537 -- 4542</p><p> Volume (issue): 45 (21) 2002 Laminar mixed convection boundary layers induced by a linearly stretching permeable surface M. Ali, F. Al-Yousef</p><p> 4241 -- 4250</p><p> Concentration fields in the solidification processing of metal matrix composites B. Moussa, J.E. Simpson, S.V. Garimella</p><p> 4251 -- 4266<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Solution of an initial-boundary value problem for heat conduction in a parallelepiped by time partitioning D.H.Y. Yen, J.V. Beck, R.L. McMasters, D.E. Amos</p><p> 4267 -- 4279</p><p> Radiation and mass transfer effects on flow of an incompressible viscous fluid past a moving vertical cylinder P. Ganesan, P. Loganathan</p><p> 4281 -- 4288</p><p> Frost formation and frost crystal growth on a cold plate in atmospheric air flow C.-H. Cheng, C.-C. Shiu</p><p> 4289 -- 4303</p><p> Non-Darcy effects in buoyancy driven flows in an enclosure filled with vertically layered porous media A.A. Merrikh, A.A. Mohamad</p><p> 4305 -- 4313</p><p> Effects of preheating and operation conditions on combustion in a porous medium Y. Huang, C.Y.H. Chao, P. Cheng</p><p> 4315 -- 4324<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Theoretical studies on transient pool boiling based on microlayer model Y.-H. Zhao, T. Masuoka, T. Tsuruta</p><p> 4325 -- 4331</p><p> Temperature, velocity and mean turbulence structure in strongly heated internal gas flows - Comparison of numerical predictions with data D.P. Mikielewicz, A.M. Shehata, J.D. Jackson, D.M. McEligot</p><p> 4333 -- 4352</p><p> Numerical simulation for heat and fluid characteristics of square duct with discrete rib turbulators K. Tatsumi, H. Iwai, K. Inaoka</p><p> 4353 -- 4359</p><p> Thermal mixing in a water tank during heating process M.-G. Kang</p><p> 4361 -- 4366</p><p> A note on the modeling of local thermal non-equilibrium in a structured porous medium D.A. Nield</p><p> 4367 -- 4368<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> On the ratio of heat to mass transfer coefficient for water evaporation and its impact upon drying modeling X.D. Chen, S.X.Q. Lin, G. Chen</p><p> 4369 -- 4372</p><p> Effect of turbulence on Taylor dispersion for oscillatory flows X. Ye, J. Zhang</p><p> 4373 -- 4380</p><p> Volume (issue): 45 (20) 2002 Local heat transfer measurements of plate finned-tube heat exchangers by infrared thermography H. Ay, J. Jang, J.-N. Yeh</p><p> 4069 -- 4078</p><p> Experimental assessment of the effects of body force, surface tension force, and inertia on flow boiling CHF H. Zhang, I. Mudawar, M.M. Hasan</p><p> 4079 -- 4095</p><p> Contact melting inside an elastic capsule A.V. Wilchinsky, S.A. Fomin, T. Hashida</p><p> 4097 -- 4106<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Critical heat flux correlation for subcooled boiling flow in narrow channels M. Kureta, H. Akimoto</p><p> 4107 -- 4115</p><p> Analytical investigations for heat conduction problems in anisotropic thin-layer media with embedded heat sources M.-H. Hsieh, C.-C. Ma</p><p> 4117 -- 4132</p><p> Critical heat flux of natural circulation boiling in a vertical tube - Effect of oscillation and circulation on CHF M. Monde, Y. Mitsutake</p><p> 4133 -- 4139</p><p> Fringe probing of an evaporating microdroplet on a hot surface W. Jia, H. Qiu</p><p> 4141 -- 4150</p><p> Theoretical model for the thermal conductivity of a packed bed of solid spheroids 4151 -- 4161 in the presence of a static gas, with no adjustable parameters except at low pressure and temperature A.J. Slavin, V. Arcas, C.A. Greenhalgh, E.R. Irvine, D.B. Marshall Velocity effect on electronic-antifouling technology to mitigate mineral fouling in enhanced-tube heat exchanger S.H. Lee, Y.I. Cho</p><p> 4163 -- 4174<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Theory of thermal resistance between solids with randomly sized and located contacts N. Laraqi, A. Bairi</p><p> 4175 -- 4180</p><p> Experimental and numerical investigation of the steady periodic solid-liquid phasechange heat transfer G. Casano, S. Piva</p><p> 4181 -- 4190</p><p> Heat transfer to a row of impinging jets in consideration of optimization P. Brevet, C. Dejeu, E. Dorignac, M. Jolly, J.J. Vullierme</p><p> 4191 -- 4200</p><p> Influence of the particle-turbulence modulation modelling in the simulation of a non-isothermal gas-solid flow P. Boulet, S. Moissette</p><p> 4201 -- 4216</p><p> Laminar natural convection in differentially heated rectangular enclosures with vertical diffusive walls V.A.F. Costa</p><p> 4217 -- 4225<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Stability of natural convection between spherical shells: energy theory V.V. Travnikov, H.J. Rath, C. Egbers</p><p> 4227 -- 4235</p><p> Thermodynamically consistent thermal energy equation for an adsorbent/fluid system J. Mitrovic</p><p> 4237 -- 4239</p><p> Volume (issue): 45 (19) 2002 Effects of the Darcy number, the Prandtl number, and the Reynolds number on local thermal non-equilibrium S.J. Kim, S.P. Jang</p><p> 3885 -- 3896</p><p> Internal flow structure description of slug flow-pattern in a horizontal pipe S. Lewis, W.L. Fu, G. Kojasoy</p><p> 3897 -- 3910</p><p> Heat transfer and phase change during picosecond laser ablation of nickel D.A. Willis, X. Xu</p><p> 3911 -- 3918<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Pool boiling heat transfer on small heaters: effect of gravity and subcooling J. Kim, J.F. Benton, D. Wisniewski</p><p> 3919 -- 3932</p><p> Prediction and measurement of incipient boiling heat flux in micro-channel heat sinks W. Qu, I. Mudawar</p><p> 3933 -- 3945</p><p> Interfacial heat transfer during subcooled flow boiling G.R. Warrier, N. Basu, V.K. Dhir</p><p> 3947 -- 3959</p><p> An experimental study of high Weber number impact of methoxynonafluorobutane C4F9OCH3 (HFE-7100) and n-heptane droplets on a heated solid surface S.L. Manzello, J.C. Yang</p><p> 3961 -- 3971</p><p> Analysis of three-dimensional heat transfer in micro-channel heat sinks W. Qu, I. Mudawar</p><p> 3973 -- 3985<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Non-heating simulation of pool-boiling critical heat flux Y.-H. Jeong, W.-P. Baek, S.H. Chang</p><p> 3987 -- 3996</p><p> A numerical study of steady flow and temperature fields within a melt spinning puddle M. Bussmann, J. Mostaghimi, D.W. Kirk, J.W. Graydon</p><p> 3997 -- 4010</p><p> The effect of time-dependent gravity with multiple frequencies on the thermal convective stability of a fluid layer P.K. Shukla, R. Narayanan</p><p> 4011 -- 4020</p><p> Laminar free convection underneath a hot horizontal infinite flat strip A. Dayan, R. Kushnir, A. Ullmann</p><p> 4021 -- 4031</p><p> Effects of spray characteristics on critical heat flux in subcooled water spray cooling R.-H. Chen, L.C. Chow, J.E. Navedo</p><p> 4033 -- 4043<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Modeling heat and moisture transfer through fibrous insulation with phase change and mobile condensates J. Fan, X. Wen</p><p> 4045 -- 4055</p><p> A comparison between the enhanced mass transfer in boundary and pressure driven oscillatory flow A.M. Thomas, R. Narayanan</p><p> 4057 -- 4062</p><p> Importance of nonequilibrium thermal conductivity during short-pulse laserinduced desorption from metals P.J. Antaki</p><p> 4063 -- 4067</p><p> Volume (issue): 45 (18) 2002 An experimental and theoretical investigation into the hyperbolic nature of axial dispersion in packed beds V.S. Prasad, S.K. Das</p><p> 3681 -- 3688</p><p> Fully coupled solution of a two-phase model for laminar film condensation of vapor-gas mixtures in horizontal channels E.C. Siow, S.J. Ormiston, H.M. Soliman</p><p> 3689 -- 3702<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Modeling of heat and moisture transport by periodic ventilation of thin cotton fibrous media K. Ghali, N. Ghaddar, B. Jones</p><p> 3703 -- 3714</p><p> Single-sided steam condensing inside a rectangular horizontal channel W. Yu, S.U.-S. Choi, D.M. France, M.W. Wambsganss</p><p> 3715 -- 3724</p><p> Double diffusion, natural convection in an enclosure filled with saturated porous medium subjected to cross gradients; stably stratified fluid A.A. Mohamad, R. Bennacer</p><p> 3725 -- 3740</p><p> Heat transfer enhancement in a grooved channel with curved vanes C. Herman, E. Kang</p><p> 3741 -- 3757</p><p> Numerical simulations of a low power microchannel thermal cycling reactor D. Erickson, D. Li</p><p> 3759 -- 3770<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Contact angles and interface behavior during rapid evaporation of liquid on a heated surface S.G. Kandlikar, M.E. Steinke</p><p> 3771 -- 3780</p><p> Non-Darcy natural convection in high porosity metal foams M.S. Phanikumar, R.L. Mahajan</p><p> 3781 -- 3793</p><p> Heat transfer enhancement accompanying pressure-loss reduction with winglettype vortex generators for fin-tube heat exchangers K. Torii, K.M. Kwak, K. Nishino</p><p> 3795 -- 3801</p><p> Flow visualization of annular and delta winlet vortex generators in fin-and-tube heat exchanger application</p><p> 3803 -- 3815</p><p> heat exchanger application C.-C. Wang, J. Lo, Y.-T. Lin, C.-S. Wei Conjugate mass transfer to a spherical drop accompanied by a second-order chemical reaction inside the drop G. Juncu</p><p> 3817 -- 3829<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Growth and evaporation of aerosol particles in the presence of adsorbable gases V.V. Levdansky, J. Smolik, V. Zdimal, P. Moravec</p><p> 3831 -- 3837</p><p> A two-dimensional fin efficiency analysis of combined heat and mass transfer in elliptic fins C.-N. Lin, J.-Y. Jang</p><p> 3839 -- 3847</p><p> Field synergy principle for enhancing convective heat transfer--its extension and numerical verifications W.-Q. Tao, Z.-Y. Guo, B.-X. Wang</p><p> 3849 -- 3856</p><p> Boiling heat transfer from a vertical row of horizontal tubes S. Kumar, B. Mohanty, S.C. Gupta</p><p> 3857 -- 3864</p><p> Influence of coherent structures on mass transfer near stagnation region in agitated 3865 -- 3873 small tanks L. Gbahoue, F. Barbeu, S. Martemianov Neural network-based prediction of the oscillating behaviour of a closed loop thermosyphon A. Fichera, A. Pagano</p><p> 3875 -- 3884<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 45 (17) 2002 Characterization of frictional pressure drop for liquid flows through microchannels J. Judy, D. Maynes, B.W. Webb</p><p> 3477 -- 3489</p><p> A transient liquid crystal method using a 3-D inverse transient conduction scheme M. Lin, T. Wang</p><p> 3491 -- 3501</p><p> An immersed-boundary method for the dynamics of premixed flames K.L. Pan, W. Shyy, C.K. Law</p><p> 3503 -- 3516</p><p> DPIV/T-driven convective heat transfer simulation X. Ma, G.E. Karniadakis, H. Park, M. Gharib</p><p> 3517 -- 3527</p><p> Improvement in performance of multi-pass laminar counterflow heat exchangers with external refluxes C.-D. Ho, H.-M. Yeh, Y.-C. Tsai</p><p> 3529 -- 3547<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Ignition delay of non-premixed stagnation-point flows W.J. Sheu, C.J. Sun</p><p> 3549 -- 3558</p><p> Improvement in performance on laminar counterflow concentric circular heat exchangers with external refluxes C.-D. Ho, H.-M. Yeh, W.-Y. Yang</p><p> 3559 -- 3569</p><p> Turbulent transport from continuous sources at the wall of a channel D.V. Papavassiliou</p><p> 3571 -- 3583</p><p> Fast-converging steady-state heat conduction in a rectangular parallelepiped P.E. Crittenden, K.D. Cole</p><p> 3585 -- 3596</p><p> Heat transfer coefficients and other performance parameters for variously 3597 -- 3607 positioned and supported thermal loads in ovens with/without water-filled or empty blockages E.M. Sparrow, J.P. Abraham Heat transfer in pulse-stabilized fluidization - Part 1: overall cylinder and average local analyses D.V. Pence, D.E. Beasley</p><p> 3609 -- 3619<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Heat transfer in pulse-stabilized fluidization - Part 2: local, instantaneous analysis D.V. Pence, D.E. Beasley</p><p> 3621 -- 3629</p><p> Performance of annular fins with different profiles subject to variable heat transfer coefficient E.M.A. Mokheimer</p><p> 3631 -- 3642</p><p> The joint analysis of general aspects of the phenomenological thermodynamics and the kinetic Boltzmann theory S.A. Korneyev</p><p> 3643 -- 3649</p><p> Average momentum equation for interdendritic flow in a solidifying columnar mushy zone P. Bousquet-Melou, B. Goyeau, M. Quintard, F. Fichot, D. Gobin</p><p> 3651 -- 3665</p><p> An empirical correlation for two-phase frictional performance in small diameter tubes I.Y. Chen, K.-S. Yang, C.-C. Wang</p><p> 3667 -- 3671<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> One dimensional heat transfer on the thermal diffusion and piston effect of supercritical water Y. Masuda, T. Aizawa, M. Kanakubo, N. Saito, Y. Ikushima</p><p> 3673 -- 3677</p><p> ''Development of one-group interfacial area transport equation in bubbly flow systems'' [International Journal of Heat and Mass Transfer 45 (2002) 2351-2372] T. Hibiki, M. Ishii</p><p> 3679 -- 3680</p><p> Volume (issue): 45 (16) 2002 Graphical determination of drying process and moisture transfer parameters for solids drying A.Z. Sahin, I. Dincer</p><p> 3267 -- 3273</p><p> A uniform temperature heat sink for cooling of electronic devices G. Hetsroni, A. Mosyak, Z. Segal, G. Ziskind</p><p> 3275 -- 3286</p><p> Techniques for detailed heat transfer measurements in cold supersonic blowdown tunnels using thermochromic liquid crystals D.J. Mee, H.S. Chiu, P.T. Ireland</p><p> 3287 -- 3297<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Tree-shaped flow structures designed by minimizing path lengths S. Lorente, W. Wechsatol, A. Bejan</p><p> 3299 -- 3312</p><p> Combined `flow and strength' geometric optimization: internal structure in a vertical insulating wall with air cavities and prescribed strength S. Lorente, A. Bejan</p><p> 3313 -- 3320</p><p> A non-uniform temperature non-uniform pressure dynamic model of heat and mass transfer in compact adsorbent beds L. Marletta, G. Maggio, A. Freni, M. Ingrasciotta, G. Restuccia</p><p> 3321 -- 3330</p><p> Effect of surface radiation on conjugate mixed convection in a vertical channel with 3331 -- 3347 a discrete heat source in each wall C. Gururaja Rao, C. Balaji, S.P. Venkateshan An experimental study of heat transfer characteristics of a pair of longitudinal vortices using color capturing technique E. Kim, J.S. Yang</p><p> 3349 -- 3356</p><p> Visualization of mixed convective vortex rolls in an impinging jet flow of air through a cylindrical chamber T.C. Cheng, P.H. Chiou, T.F. Lin</p><p> 3357 -- 3368<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Hot-electron blast induced by ultrashort-pulsed lasers in layered media D.Y. Tzou, J.K. Chen, J.E. Beraun</p><p> 3369 -- 3382</p><p> Heat transfer and friction in solar air heater duct with V-shaped rib roughness on absorber plate A.-M. Ebrahim Momin, J.S. Saini, S.C. Solanki</p><p> 3383 -- 3396</p><p> Microscopic phenomena and macroscopic evaluation of heat transfer from plate fins/circular tube assembly using naphthalene sublimation technique J.-Y. Kim, T.-H. Song</p><p> 3397 -- 3404</p><p> Influence of processing conditions of polymer film on dropwise condensation heat transfer X. Ma, J. Chen, D. Xu, J. Lin, C. Ren, Z. Long</p><p> 3405 -- 3411</p><p> Experimental estimation of the transient free convection heat transfer coefficient on a vertical flat plate in air G. Maranzana, S. Didierjean, B. Remy, D. Maillet</p><p> 3413 -- 3427<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Bed-to-wall heat transfer behavior in a pressurized circulating fluidized bed A.V.S.S.K.S. Gupta, P.K. Nag</p><p> 3429 -- 3436</p><p> A combined temperature scale for analyzing natural convection in rectangular enclosures with discrete wall heat sources Q.-H. Deng, G.-F. Tang, Y. Li</p><p> 3437 -- 3446</p><p> Experimental study of flash evaporation of a water film D. Saury, S. Harmand, M. Siroux</p><p> 3447 -- 3457</p><p> Thermal convection in a porous toroidal thermosyphon Y.Y. Jiang, M. Shoji</p><p> 3459 -- 3470</p><p> Stability and chaotic characteristics of a wall plume H. Ishida, T. Yamashita, H. Kimoto</p><p> 3471 -- 3476<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 45 (15) 2002 Development of a new Bi-Di correlation for solids drying I. Dincer, M.M. Hussain</p><p> 3065 -- 3069</p><p> Constant wall heat flux boundary conditions in porous media under local thermal non-equilibrium conditions</p><p> 3071 -- 3087</p><p> B. Alazmi, K. Vafai A Reynolds analogy for real component surface roughness B.J. Belnap, J.A. van Rij, P.M. Ligrani</p><p> 3089 -- 3099</p><p> Extended Graetz problem accompanied by Dufour and Soret effects R.M.L. Coelho, A. Silva Telles</p><p> 3101 -- 3110</p><p> Interfacial area transport equation: model development and benchmark experiments M. Ishii, S. Kim, J. Uhle</p><p> 3111 -- 3123<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Entropy generation in a plane turbulent oscillating jet J. Cervantes, F. Solorio</p><p> 3125 -- 3129</p><p> High performance miniature heat pipe L. Lin, R. Ponnappan, J. Leland</p><p> 3131 -- 3142</p><p> On the displacement in origin for turbulent boundary layers subjected to sudden changes in wall temperature and roughness M.R. Avelino, A.P. Silva Freire</p><p> 3143 -- 3153</p><p> Resonance of natural convection in a side heated enclosure with a mechanically oscillating bottom wall S.K. Kim, S.Y. Kim, Y.D. Choi</p><p> 3155 -- 3162</p><p> Novel insight and numerical analysis of convective heat transfer enhancement with microencapsulated phase change material slurries: laminar flow in a circular tube with constant heat flux X. Hu, Y. Zhang</p><p> 3163 -- 3172<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Analytic solution for the non-linear drying problem L. Pel, K.A. Landman, E.F. Kaasschieter</p><p> 3173 -- 3180</p><p> Forced convection in horizontal porous channels with hydrodynamic anisotropy G. Degan, S. Zohoun, P. Vasseur</p><p> 3181 -- 3188</p><p> Unified theoretical prediction of fully developed nucleate boiling and critical heat flux based on a dynamic microlayer model Y.-H. Zhao, T. Masuoka, T. Tsuruta</p><p> 3189 -- 3197</p><p> An experimental heat transfer study for periodically varying-curvature curvedpipe R. Yang, F.P. Chiang</p><p> 3199 -- 3204</p><p> Double-diffusive natural convection in an anisotropic porous cavity with opposing buoyancy forces: multi-solutions and oscillations P. Bera, A. Khalili</p><p> 3205 -- 3222<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Heat transfer characterization of support structures for catalytic combustion A. Brautsch, T. Griffin, A. Schlegel</p><p> 3223 -- 3231</p><p> Temperatures and the condensate heat resistance in dropwise condensation of multicomponent mixtures with inert gases F.L.A. Ganzevles, C.W.M. van der Geld</p><p> 3233 -- 3243</p><p> Pool boiling heat transfer in vertical annular crevices M.-G. Kang</p><p> 3245 -- 3249</p><p> Investigation of impinging diffusion flames with inert gas A. Su, Y.-C. Liu</p><p> 3251 -- 3257</p><p> On the discrete ordinates method for radiative heat transfer in anisotropically scattering media L.H. Liu, L.M. Ruan, H.P. Tan</p><p> 3259 -- 3262<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Improved approximation for the Nusselt number for hydrodynamically developed laminar flow between parallel plates M. Nickolay, H. Martin</p><p> 3263 -- 3266</p><p> Volume (issue): 45 (14) 2002 Heat transfer - a review of 2000 literature 2853 -- 2957 R.J. Goldstein, E.R.G. Eckert, W.E. Ibele, S.V. Patankar, T.W. Simon, T.H. Kuehn, P.J. Strykowski, K.K. Tamma, A. Bar-Cohen, J.V.R. Heberlein, J.H. Davidson, J. Bischof, F.A. Kulacki, U. Kortshagen, S. Garrick Initial inverse problem in heat equation with Bessel operator K. Masood, S. Messaoudi, F.D. Zaman</p><p> 2959 -- 2965</p><p> Natural convection in a shallow cylindrical annuli D.M. Leppinen</p><p> 2967 -- 2981</p><p> A fractal permeability model for bi-dispersed porous media B. Yu, P. Cheng</p><p> 2983 -- 2993</p><p> Dynamical energy limits in traditional and work-driven operations I. Heatmechanical systems S. Sieniutycz, M. Kubiak</p><p> 2995 -- 3012<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Natural convection in three-dimensional porous cavities: integral transform method H. Luz Neto, J.N.N. Quaresma, R.M. Cotta</p><p> 3013 -- 3032</p><p> Numerical investigation of heat transfer from a heated oscillating cylinder in a cross flow W.-S. Fu, B.-H. Tong</p><p> 3033 -- 3043</p><p> Shape-factor effect on melting in an elliptic capsule S.A. Fomin, A.V. Wilchinsky</p><p> 3045 -- 3054</p><p> Employment of non-symmetrical saw-tooth argument transformation method in the elasticity theory for layered composites G. Starushenko, N. Krulik, S. Tokarzewski</p><p> 3055 -- 3060</p><p> The onset of vortex instability in laminar forced convection flow through a horizontal porous channel T.J. Chung, J.H. Park, C.K. Choi, D.-Y. Yoon</p><p> 3061 -- 3064<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 45 (13) 2002 Numerical analysis of boiling on high heat-flux and high subcooling condition using MPS-MAFL S. Heo, S. Koshizuka, Y. Oka</p><p> 2633 -- 2642</p><p> Heat transfer and pressure drop in fractal tree-like microchannel nets</p><p> 2643 -- 2648</p><p> Y. Chen, P. Cheng Minimizing the entropy production in heat exchange E. Johannessen, L. Nummedal, S. Kjelstrup</p><p> 2649 -- 2654</p><p> Forced convective boiling of ternary mixtures at high qualities J.R. Barbosa, T. Kandlbinder, G.F. Hewitt</p><p> 2655 -- 2665</p><p> Skin friction and heat transfer in power-law fluid laminar boundary layer along a moving surface L.C. Zheng, X.X. Zhang</p><p> 2667 -- 2672<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Simultaneous radiation and conduction heat transfer in a graded index semitransparent slab with gray boundaries X.-L. Xia, Y. Huang, H.-P. Tan, X.-B. Zhang</p><p> 2673 -- 2688</p><p> Effect of capillarity at liquid-vapor interface on phase change without surfactant J.T. Zhang, B.X. Wang</p><p> 2689 -- 2694</p><p> A general solution for one-dimensional multistream heat exchangers and their networks X. Luo, M. Li, W. Roetzel</p><p> 2695 -- 2705</p><p> Numerical modelling and experimental investigation of the fluid flow and contaminant dispersion in a channel S. Hancu, T. Ghinda, L. Ma, D. Lesnic, D.B. Ingham</p><p> 2707 -- 2718</p><p> Shape optimization of rib-roughened surface to enhance turbulent heat transfer K.-Y. Kim, S.-S. Kim</p><p> 2719 -- 2727<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Characteristics of falling film flow on completely wetted horizontal tubes and the associated gas absorption T. Nosoko, A. Miyara, T. Nagata</p><p> 2729 -- 2738</p><p> Heat induced transition of a stable vortex street R.N. Kieft, C.C.M. Rindt, A.A. van Steenhoven</p><p> 2739 -- 2753</p><p> A formal averaging procedure for radiation heat transfer in particulate media J.L. Consalvi, B. Porterie, J.C. Loraud</p><p> 2755 -- 2768</p><p> Stability analysis of the mechanism of jet attachment to walls A. Triboix, D. Marchal</p><p> 2769 -- 2775</p><p> Conjugate free convection above a heated finite horizontal flat plate embedded in a porous medium A.Z. Vaszi, L. Elliott, D.B. Ingham, I. Pop</p><p> 2777 -- 2795<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Radiative transfer in real gases using reciprocal and forward Monte Carlo methods and a correlated-k approach L. Tesse, F. Dupoirieux, B. Zamuner, J. Taine</p><p> 2797 -- 2814</p><p> A new numerical method to simulate the non-Fourier heat conduction in a singlephase medium Q.-M. Fan, W.-Q. Lu</p><p> 2815 -- 2821</p><p> Numerical optimization of the thermal performance of a microchannel heat sink J.H. Ryu, D.H. Choi, S.J. Kim</p><p> 2823 -- 2827</p><p> Theoretical analysis of film condensation heat transfer inside vertical mini triangular channels</p><p> 2829 -- 2842</p><p> triangular channels T.S. Zhao, Q. Liao Numerical analysis of LEC growth of GaAs with an axial magnetic field M. Li, W. Hu, N. Chen, D. Zeng, Z. Tang</p><p> 2843 -- 2851<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 45 (12) 2002 Experimental study of the forces associated with mixed convection from a heated sphere at small Reynolds and Grashof numbers. Part II: Assisting and opposing flows E. Mograbi, G. Ziskind, D. Katoshevski, E. Bar-Ziv</p><p> 2423 -- 2430</p><p> Three-dimensional convective flow adjacent to backward-facing step-effects of step height J.H. Nie, B.F. Armaly</p><p> 2431 -- 2438</p><p> Thermal conductivity of amorphous silicon thin films S. Moon, M. Hatano, M. Lee, C.P. Grigoropoulos</p><p> 2439 -- 2447</p><p> Forced convective boiling of pure refrigerants in a bundle of enhanced tubes having 2449 -- 2463 pores and connecting gaps N.-H. Kim, J.-P. Cho, B. Youn Hydromagnetic double-diffusive convection in a rectangular enclosure with opposing temperature and concentration gradients A.J. Chamkha, H. Al-Naser</p><p> 2465 -- 2483</p><p> An analytical asymptotic solution to a conjugate heat transfer problem C. Fredrik Stein, P. Johansson, J. Bergh, L. Lofdahl, M. Sen, M. Gad-el-Hak</p><p> 2485 -- 2500<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Analysis of liquid-vapor pulsating flow in a U-shaped miniature tube Y. Zhang, A. Faghri, M.B. Shafii</p><p> 2501 -- 2508</p><p> On laminar hydromagnetic mixed convection flow in a vertical channel with symmetric and asymmetric wall heating conditions A.J. Chamkha</p><p> 2509 -- 2525</p><p> Effective boundary conditions for buoyancy-driven flows and heat transfer in fully open-ended two-dimensional enclosures K. Khanafer, K. Vafai</p><p> 2527 -- 2538</p><p> Wickless network heat pipes for high heat flux spreading applications Y. Cao, M. Gao</p><p> 2539 -- 2547</p><p> Experimental and numerical study of pressure drop and heat transfer in a singlephase micro-channel heat sink Weilin Qu, Issam Mudawar</p><p> 2549 -- 2565<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> A numerical model for the mixing of an inclined submerged heated plane water jet in calm fluid P.B. Angelidis</p><p> 2567 -- 2575</p><p> Experimental and numerical investigation of circularly lobed nozzle with/without central plug Y.-H. Liu</p><p> 2577 -- 2585</p><p> Forced convection in a wavy-wall channel C.-C. Wang, C.-K. Chen</p><p> 2587 -- 2595</p><p> C.-C. Wang, C.-K. Chen Complete map out of the heat transfer coefficient at the surface of two circular cylinders H/D=3.0 and 0.3 subjected to a cross-flow of air L. Ghisalberti, A. Kondjoyan</p><p> 2597 -- 2609</p><p> Dynamics of three-dimensional temperature field in electrical system of floor heating J. Golebiowski, S. Kwieckowski</p><p> 2611 -- 2622<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Explicit analytical solutions of incompressible unsteady 2-D laminar flow with heat transfer R. Cai, N. Zhang</p><p> 2623 -- 2627</p><p> Parametric study of transient free convection heat transfer T. de Lorenzo, J. Padet</p><p> 2629 -- 2632</p><p> Volume (issue): 45 (11) 2002 The onset of Darcy-Brinkman convection in a porous layer: an asymptotic analysis D.A.S. Rees</p><p> 2213 -- 2220</p><p> Onset of Darcy-Benard convection using a thermal non-equilibrium model N. Banu, D.A.S. Rees</p><p> 2221 -- 2228</p><p> A three-dimensional model of droplet impact and solidification M. Pasandideh-Fard, S. Chandra, J. Mostaghimi</p><p> 2229 -- 2242<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Effective thermal conductivity of compressed woods Yutaka Asako, Hisayoshi Kamikoga, Hisashi Nishimura, Yoshiyuki Yamaguchi</p><p> 2243 -- 2253</p><p> Experiments on discretely heated, vented/unvented enclosures for various radiation surface characteristics of the thermal load, enclosure temperature sensor, and enclosure walls John P. Abraham, Ephraim M. Sparrow</p><p> 2255 -- 2263</p><p> Inertia effects on non-parallel thermal instability of natural convection flow over horizontal and inclined plates in porous media J.Z. Zhao, T.S. Chen</p><p> 2265 -- 2276</p><p> A two-phase flow and transport model for the cathode of PEM fuel cells Lixin You, Hongtan Liu</p><p> 2277 -- 2287</p><p> An integrated model for interaction between melt flow and non-equilibrium solidification in thermal spraying X.Y. Wang, H. Zhang, L.L. Zheng, S. Sampath</p><p> 2289 -- 2301<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Analysis of heat transfer in the rapid thermal processing of the plasma display 2303 -- 2314 panel Man Yeong Ha, Kong Hoon Lee, Moon Gun Bae, Jong Rae Cho, Hee Seung Lee, Jin Ho Choi LES analysis of turbulent flow and heat transfer in motored engines with various SGS models Horng-Wen Wu, Shiang-Wuu Perng</p><p> 2315 -- 2328</p><p> Coalescence of bubbles in nucleate boiling on microheaters Tailian Chen, J.N. Chung</p><p> 2329 -- 2341</p><p> Modeling of eddy characteristic time in LES for calculating turbulent diffusion flame Mitsuru Yaga, Hajime Endo, Tsuyoshi Yamamoto, Hideyuki Aoki, Takatoshi Miura</p><p> 2343 -- 2349</p><p> Development of one-group interfacial area transport equation in bubbly flow systems Takashi Hibiki, Mamoru Ishii</p><p> 2351 -- 2372</p><p> Numerical visualization of mass and heat transport for conjugate natural convection/heat conduction by streamline and heatline Q.-H. Deng, G.-F. Tang</p><p> 2373 -- 2385<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Numerical visualization of mass and heat transport for mixed convective heat transfer by streamline and heatline Q.-H. Deng, G.-F. Tang</p><p> 2387 -- 2396</p><p> Mushy zone equilibrium solidification of a semitransparent layer subject to radiative and convective cooling C. Yao, B.T.F. Chung, G.-X. Wang</p><p> 2397 -- 2405</p><p> Analytical and numerical investigation of the characteristics of a soil heat exchanger for ventilation systems V.P. Kabashnikov, L.N. Danilevskii, V.P. Nekrasov, I.P. Vityaz</p><p> 2407 -- 2418</p><p> Inlet temperature influence on the departure from Darcy flow of a fluid with variable viscosity Arunn Narasimhan, José L. Lage</p><p> 2419 -- 2422</p><p> Volume (issue): 45 (10) 2002 Professor Dr.-Ing.Dr-Ing e.h. Ulrich Grigull on his 90th birthday</p><p> 2001 -- 2002<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> A generalized correlation for evaporation heat transfer of refrigerants in micro-fin tubes Rin Yun, Yongchan Kim, Kookjeong Seo, Ho Young Kim</p><p> 2003 -- 2010</p><p> Heat transfer in a dimpled channel: combined influences of aspect ratio, temperature ratio, Reynolds number, and flow structure G.I. Mahmood, P.M. Ligrani</p><p> 2011 -- 2020</p><p> Accuracy of measurements of curvature and apparent contact angle in a constrained vapor bubble heat exchanger Ling Zheng, Ying-Xin Wang, Joel L. Plawsky, Peter C., Jr. Wayner</p><p> 2021 -- 2030</p><p> Forced convection heat transfer at an inclined and yawed round tube Mao-Yu Wen, Kuen-Jang Jang</p><p> 2031 -- 2042</p><p> Interfacial thermal conductance in rapid contact solidification process W. Wang, H.-H. Qiu</p><p> 2043 -- 2053<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Thermal effect of surface tension on the inward solidification of spheres T. Wu, H.-C. Liaw, Y.-Z. Chen</p><p> 2055 -- 2065</p><p> A decomposition method for solving the convective longitudinal fins with variable thermal conductivity Ching-Huang Chiu, Cha'o-Kuang Chen</p><p> 2067 -- 2075</p><p> Numerical study of heat transfer in a laminar mist flow over a isothermal flat plate</p><p> 2077 -- 2085</p><p> V.I. Terekhov, M.A. Pakhomov Molecular dynamics simulation of vaporization of an ultra-thin liquid argon layer on a surface Pan Yi, D. Poulikakos, J. Walther, G. Yadigaroglu</p><p> 2087 -- 2100</p><p> The effect of layer depth on mixing in a double-diffusive two-layer system Josef Tanny, Bachtiyar Yakubov</p><p> 2101 -- 2105<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Experimental study on laminar flow forced-convection in a channel with upper Vcorrugated plate heated by radiation Ahmed Hamza H. Ali, Yutaka Hanaoka</p><p> 2107 -- 2117</p><p> Theoretical analysis and experimental confirmation of the uniformity principle of temperature difference field in heat exchanger Zeng-Yuan Guo, Sen-Quan Zhou, Zhi-Xin Li, Lin-Gen Chen</p><p> 2119 -- 2127</p><p> On the application of the exponential wide band model to the calculation of radiative heat transfer in one- and two-dimensional enclosures Jochen Ströhle, Pedro J. Coelho</p><p> 2129 -- 2139</p><p> Laminar natural convection in an inclined cavity with a wavy wall L. Adjlout, O. Imine, A. Azzi, M. Belkadi</p><p> 2141 -- 2152</p><p> Thermal instabilities in a horizontal cylindrical duct: a physical approach C. Abid, R. Martin, F. Papini</p><p> 2153 -- 2157<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Analysis of conduction-radiation problem in absorbing, emitting and anisotropically scattering media using the collapsed dimension method Prabal Talukdar, Subhash C. Mishra</p><p> 2159 -- 2168</p><p> Slip flow and temperature jump on the impulsively started plate L.M. de Socio, L. Marino</p><p> 2169 -- 2175</p><p> Heat transfer through periodic macro-contact with constriction Hao Wang, Alain Degiovanni</p><p> 2177 -- 2190</p><p> Combined free and forced convection in a corner A. Ridha</p><p> 2191 -- 2205</p><p> Natural convection flow due to a heat source in a vertical channel F.J. Higuera, Yu.S. Ryazantsev</p><p> 2207 -- 2212<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 45 (9) 2002 Congratulations to Prof. Erich Hahne on the occasion of your 70th birthday!</p><p> 1789 -- 1790</p><p> Subcooled flow boiling heat transfer of R-134a and the associated bubble characteristics in a vertical plate heat exchanger Y.Y. Hsieh, L.J. Chiang, T.F. Lin</p><p> 1791 -- 1806</p><p> Second law analysis of a waste heat recovery steam generator B.V. Reddy, G. Ramkiran, K. Ashok Kumar, P.K. Nag</p><p> 1807 -- 1814</p><p> Convective heat transfer of exothermic reactive gas flowing across a heating cylinder coated with platinum catalyst in a narrow duct Yoshinori Itaya, Tooru Hiroi, Hitoki Matsuda, Masanobu Hasatani</p><p> 1815 -- 1821</p><p> Flow and heat transfer in rotating two-pass rectangular channels (AR=2) by Reynolds stress turbulence model</p><p> 1823 -- 1838<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Reynolds stress turbulence model Mohammad Al-Qahtani, Yong-Jun Jang, Hamn-Ching Chen, Je-Chin Han Measurement of apparent solid-side mass diffusivity of a water vapor-silica gel system Cheng-Chin Ni, Jung-Yang San</p><p> 1839 -- 1847</p><p> Computational modeling for honeycomb-stator gas annular seal G. Chochua, W. Shyy, J. Moore</p><p> 1849 -- 1863</p><p> Temperature solution in multi-dimensional multi-layer bodies A. Haji-Sheikh, J.V. Beck</p><p> 1865 -- 1877</p><p> Effects of radius and heat transfer on the profile of evaporating thin liquid film and 1879 -- 1887 meniscus in capillary tubes Wei Qu, Tongze Ma, Jianyin Miao, Jinliang Wang Energy analysis of evaporating thin falling film instability in vertical tube Xiao-Ze Du, Bu-Xuan Wang, Shao-Rong Wu, Sheng-Yao Jiang</p><p> 1889 -- 1893</p><p> Analytical solutions of 1-D heat conduction problem for a single fin with temperature dependent heat transfer coefficient - I. Closed-form inverse solution I.N. Dul'kin, G.I. Garas'ko</p><p> 1895 -- 1903<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Analytical solutions of the 1-D heat conduction problem for a single fin with temperature dependent heat transfer coefficient - II. Recurrent direct solution I.N. Dul'kin, G.I. Garas'ko</p><p> 1905 -- 1914</p><p> Measurement and numerical analysis of freezing in solutions enclosed in a small container Ramachandra V. Devireddy, Perry H. Leo, John S. Lowengrub, John C. Bischof</p><p> 1915 -- 1931</p><p> Flow visualization of wave-type vortex generators having inline fin-tube arrangement Chi-Chuan Wang, Jerry Lo, Yur-Tsai Lin, Min-Sheng Liu</p><p> 1933 -- 1944</p><p> A Monte Carlo model for predicting the effective emissivity of the silicon wafer in rapid thermal processing furnaces Y.H. Zhou, Y.J. Shen, Z.M. Zhang, B.K. Tsai, D.P. DeWitt</p><p> 1945 -- 1949</p><p> Multiple transient point heat sources identification in heat diffusion: application to experimental 2D problems Frédéric Lefèvre, Christophe Le Niliot</p><p> 1951 -- 1964<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Scalar transport in a quasi two-dimensional turbulent wake interacting with a boundary layer G.A. Sideridis, E.G. Kastrinakis, S.G. Nychas</p><p> 1965 -- 1982</p><p> Determination of the temperature and concentrations for the products of 1983 -- 1991 combustion of a hydrocarbon fuel on the basis of their infrared self-radiation E. Vitkin, O. Zhdanovich, V. Tamanovich, V. Senchenko, V. Dozhdikov, M. Ignatiev, I. Smurov A closed form solution for temperature rise inside solid substrate due to time exponentially varying pulse B.S. Yilbas</p><p> 1993 -- 2000</p><p> Volume (issue): 45 (8) 2002 An approximate analytic method for solving 1D dual-phase-lagging heat transport equations Weizhong Dai, Raja Nassar</p><p> 1585 -- 1593</p><p> Numerical study of thermal instability in mixed convection flow over horizontal and inclined surfaces Ming-Han Lin, Chin-Tai Chen</p><p> 1595 -- 1603</p><p> Conjugate heat transfer measurements in a non-uniformly heated circular flow channel under flow boiling conditions Ronald D. Boyd Sr., Penrose Cofie, Ali Ekhlassi</p><p> 1605 -- 1613<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> An experimental and numerical study of heat transfer off an inclined surface subject to an impinging airflow Subrata Roy, Karim Nasr, Paresh Patel, Bashar AbdulNour</p><p> 1615 -- 1629</p><p> Unsteady forced convection with sinusoidal duct wall generation: the conjugate heat transfer problem James Sucec</p><p> 1631 -- 1642</p><p> Constructal design for cooling a disc-shaped area by conduction L.A.O. Rocha, S. Lorente, A. Bejan</p><p> 1643 -- 1652</p><p> Modeling of gaseous radiant exchange with the smooth (reordered) band model A. Runstedtler, K.G.T. Hollands</p><p> 1653 -- 1660</p><p> Turbulent unsteady flow and heat transfer in channels with periodically mounted square bars Alvaro Valencia, Marcela Cid</p><p> 1661 -- 1673<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> A methodology to reduce thermal gradients due to the exothermic reactions in composites processing Vincenza Antonucci, Michele Giordano, Kuang-Ting Hsiao, Suresh G. Advani</p><p> 1675 -- 1684</p><p> Fouling characteristics of internal helical-rib roughness tubes using low-velocity cooling tower water Wei Li, Ralph L. Webb</p><p> 1685 -- 1691</p><p> Direct numerical simulation of turbulent channel flow under stable density stratification O. Iida, N. Kasagi, Y. Nagano</p><p> 1693 -- 1703</p><p> Modelling forest fires. Part I: a complete set of equations derived by extended irreversible thermodynamics O. Séro-Guillaume, J. Margerit</p><p> 1705 -- 1722</p><p> Modelling forest fires. Part II: reduction to two-dimensional models and simulation of propagation J. Margerit, O. Séro-Guillaume</p><p> 1723 -- 1737<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Effects of surface wettability on nucleate pool boiling heat transfer for surfactant solutions D.S. Wen, B.X. Wang</p><p> 1739 -- 1747</p><p> Development of a new moisture transfer (Bi-Re) correlation for food drying applications I. Dincer, M.M. Hussain, A.Z. Sahin, B.S. Yilbas</p><p> 1749 -- 1755</p><p> Determination of drying times for regular multi-dimensional objects A.Z. Sahin, I. Dincer, B.S. Yilbas, M.M. Hussain</p><p> 1757 -- 1766</p><p> Theoretical analysis of heat transfer in laminar pulsating flow H.N. Hemida, M.N. Sabry, A. Abdel-Rahim, H. Mansour</p><p> 1767 -- 1780</p><p> Transient conjugated heat transfer in pipes involving two-dimensional wall and axial fluid conduction efik Bilir</p><p> 1781 -- 1788<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 45 (7) 2002 Professor Bu-Xuan Wang, Chinese Academici</p><p> 1377 -- 1378</p><p> Nonlinear analysis of tilted toroidal thermosyphon models Arturo Pacheco-Vega, Walfre Franco, Hsueh-Chia Chang, Mihir Sen</p><p> 1379 -- 1391</p><p> On a subgrid-scale heat flux model for large eddy simulation of turbulent thermal flow Shia-Hui Peng, Lars Davidson</p><p> 1393 -- 1405</p><p> Experimental characteristics of a storage tank on a harvest-type ice storage system I.S. Choi, J.D. Kim, E. Kim, J.I. Yoon</p><p> 1407 -- 1412</p><p> Fully developed forced convection of the Phan-Thien-Tanner fluid in ducts with a constant wall temperature P.M. Coelho, F.T. Pinho, P.J. Oliveira</p><p> 1413 -- 1423<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Transient natural convection in a cylindrical enclosure at high Rayleigh numbers E. Papanicolaou, V. Belessiotis</p><p> 1425 -- 1444</p><p> Falling-film and droplet mode heat and mass transfer in a horizontal tube LiBr/water absorber Siyoung Jeong, Srinivas Garimella</p><p> 1445 -- 1458</p><p> Note on a thermal law of the wall for separating and recirculating flows Daniel O.A. Cruz, Atila P. Silva Freire</p><p> 1459 -- 1465</p><p> Direct contact melting of porous material Hiroyuki Kumano, Akio Saito, Seiji Okawa</p><p> 1467 -- 1475</p><p> MHD free convection in a liquid-metal filled cubic enclosure. I. Differential heating Ivan Di Piazza, Michele Ciofalo</p><p> 1477 -- 1492<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> MHD free convection in a liquid-metal filled cubic enclosure. II. Internal heating Ivan Di Piazza, Michele Ciofalo</p><p> 1493 -- 1511</p><p> Modified theoretical models of film condensation in horizontal microfin tubes H.S. Wang, H. Honda, S. Nozu</p><p> 1513 -- 1523</p><p> A linear and non-linear analysis on interfacial instability of gas-liquid two-phase flow through a circular pipe Lie-Jin Guo, Guang-Jun Li, Xue-Jun Chen</p><p> 1525 -- 1534</p><p> Experimental and theoretical study of axial dryout point for evaporation from Vshaped microgrooves Sivaraman Anand, Sirshendu De, Sunando Dasgupta</p><p> 1535 -- 1543</p><p> Optimality of nonequilibrium systems and problems of statistical thermodynamics Stanislaw Sieniutycz</p><p> 1545 -- 1561<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Unsteady forced convection heat transfer on a flat plate embedded in the fluidsaturated porous medium with inertia effect and thermal dispersion Wen T. Cheng, Hsiao T. Lin</p><p> 1563 -- 1569</p><p> Analytical solution for pulsed laser heating process: convective boundary condition case B.S. Yilbas, M. Kalyon</p><p> 1571 -- 1582</p><p> Shape and Structure, from Engineering to Nature, A. Bejan, Cambridge University Press, Cambridge, 2000, 344 pp, hbk $110.00/£70.00 (ISBN 0-521-79049-2), pbk $39.95/£24.95 (ISBN 0-521-79388-2) J. Cervantes-de Gortari</p><p> 1583 -- 1583</p><p> Volume (issue): 45 (6) 2002 Modeling of heat transfer in turbulent gas-solid flow Z. Mansoori, M. Saffar-Avval, H. Basirat Tabrizi, G. Ahmadi</p><p> 1173 -- 1184</p><p> Stability analysis of natural convection in porous cavities through integral transforms L.S. de B. Alves, R.M. Cotta, J. Pontes</p><p> 1185 -- 1195<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> On numerical modelling of low-pressure subcooled boiling flows J.Y. Tu, G.H. Yeoh</p><p> 1197 -- 1209</p><p> Stationary transverse rolls and U-rolls in limiting low Reynolds number mixed convective air flow near the convective threshold in a horizontal flat duct T.C. Cheng, J.T. Lir, T.F. Lin</p><p> 1211 -- 1227</p><p> Stagnation flow thermophoretic deposition with variable particle concentration in the mainstream Frank K. Hsu, Ralph Greif</p><p> 1229 -- 1235</p><p> A numerical study of the unsteady flow and heat transfer in a transitional confined slot jet impinging on an isothermal surface Victor A. Chiriac, Alfonso Ortega</p><p> 1237 -- 1248</p><p> The effect of Lewis number on radiative extinction and flamelet modeling Tariq Shamim</p><p> 1249 -- 1259<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Hyperbolic axial dispersion model for heat exchangers Ranjit Kumar Sahoo, Wilfried Roetzel</p><p> 1261 -- 1270</p><p> Prediction of swirling confined diffusion flame with a Monte Carlo and a presumed-PDF-model S. Repp, A. Sadiki, C. Schneider, A. Hinz, T. Landenfeld, J. Janicka</p><p> 1271 -- 1285</p><p> Proposition de méthodes et modèles eulériens pour les problèmes à interfaces entre fluides compressibles en présence de transfert de chaleur. Some models and Eulerian methods for interface problems between compressible fluids with heat transfer J. Massoni, R. Saurel, B. Nkonga, R. Abgrall</p><p> 1287 -- 1307</p><p> Wall effect on heat transfer from a micro-cylinder in near-wall shear flow J.-M. Shi, M. Breuer, F. Durst</p><p> 1309 -- 1320</p><p> Stability of natural convective motion in pure water near 4°C contained in a slot with a moving sidewall S. Saravanan, P. Kandaswamy</p><p> 1321 -- 1332<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> An analytic approach to the unsteady heat conduction processes in one-dimensional 1333 -- 1343 composite media F. de Monte Unsteady mixed convection flow in the stagnation region of a heated vertical plate due to impulsive motion Rajeswari Seshadri, Nalini Sreeshylan, G. Nath</p><p> 1345 -- 1352</p><p> Measurement of the mass diffusivity in cement mortar: use of initial rates of water absorption Halina Garbaliska</p><p> 1353 -- 1357</p><p> Jet flow phenomena during nucleate boiling H. Wang, X.F. Peng, B.X. Wang, D.J. Lee</p><p> 1359 -- 1363</p><p> Oscillatory double-diffusive convection in a porous enclosure due to opposing heat 1365 -- 1369 and mass fluxes on the vertical walls Yoshio Masuda, Michio Yoneya, Tamio Ikeshoji, Shigeo Kimura, Farid Alavyoon, Takao Tsukada, Mitsunori Hozawa A study of heat transfer effectiveness of circular tubes with internal longitudinal fins having tapered lateral profiles Iftakhar Alam, P.S. Ghoshdastidar</p><p> 1371 -- 1376</p><p> Volume (issue): 45 (5) 2002 Laminar-turbulent transition behavior of fully developed air flow in a heated horizontal tube H. Koizumi</p><p> 937 -- 949<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> An analytical and experimental study of heat transfer in fixed bed Licínio M. Ferreira, José A.M. Castro, Alírio E. Rodrigues</p><p> 951 -- 961</p><p> Laminar free-convection over a vertical isothermal plate with uniform blowing or suction in water with variable physical properties A. Pantokratoras</p><p> 963 -- 977</p><p> Heat transfer from an impinging premixed butane/air slot flame jet L.L. Dong, C.S. Cheung, C.W. Leung</p><p> 979 -- 992</p><p> Heat transfer characteristics of a slot jet impinging on a semi-circular convex surface T.L. Chan, C.W. Leung, K. Jambunathan, S. Ashforth-Frost, Y. Zhou, M.H. Liu</p><p> 993 -- 1006</p><p> Modeling and experimental observation of evaporation from oxidizing molybdenum particles entrained in a thermal plasma jet Y.P. Wan, J.R. Fincke, S. Sampath, V. Prasad, H. Herman</p><p> 1007 -- 1015<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Thermophysical properties of high porosity metal foams A. Bhattacharya, V.V. Calmidi, R.L. Mahajan</p><p> 1017 -- 1031</p><p> Saturated flow boiling heat transfer and pressure drop of refrigerant R-410A in a vertical plate heat exchanger Y.Y. Hsieh, T.F. Lin</p><p> 1033 -- 1044</p><p> Identification of furnace thermal characteristics from resistance measurements J.P. Garandet, C. Salvi</p><p> 1045 -- 1054</p><p> Thermal oscillation and resonance in dual-phase-lagging heat conduction Mingtian Xu, Liqiu Wang</p><p> 1055 -- 1061</p><p> Approach towards spatial phase reconstruction in transient bubbly flow using a wire-mesh sensor S. Richter, M. Aritomi, H.-M. Prasser, R. Hampel</p><p> 1063 -- 1075<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Metal droplet deposition on non-flat surfaces: effect of substrate morphology A.M. Ahmed, R.H. Rangel</p><p> 1077 -- 1091</p><p> Heat (mass) transfer in rectangular cross-sectioned two-pass channels with an inclined divider wall M. Hirota, H. Fujita, L. Cai, H. Nakayama, M. Yanagida, A. Syafa'at</p><p> 1093 -- 1107</p><p> Morphology of soot collected in microgravity droplet flames Samuel L. Manzello, Mun Y. Choi</p><p> 1109 -- 1116</p><p> Pool boiling heat transfer and simplified one-dimensional model for prediction on coated porous surfaces with vapor channels Wei Wu, Jian-Hua Du, Xue-Jiao Hu, Bu-Xuan Wang</p><p> 1117 -- 1125</p><p> Heat transfer by laminar Hartmann flow in thermal entrance region with a step change in wall temperatures: the Graetz problem extended J. Lahjomri, A. Oubarra, A. Alemany</p><p> 1127 -- 1148<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Augmentation of heat transfer by deflectors on circulating fluidized bed membrane walls M.R. Golriz, J.R. Grace</p><p> 1149 -- 1154</p><p> Solution of periodic heating problems by the transfer matrix method Shiqing Fan, J.R. Barber</p><p> 1155 -- 1158</p><p> An empirical correlation for natural convection heat transfer from thin isothermal circular disks at arbitrary angles of inclination C.J. Kobus, G.L. Wedekind</p><p> 1159 -- 1163</p><p> Well-posedness of dual-phase-lagging heat conduction equation: higher dimensions Liqiu Wang, Mingtian Xu</p><p> 1165 -- 1171</p><p> Volume (issue): 45 (4) 2002 Professor Suhas V. Patankar on his 60th birthday</p><p> 701 -- 702<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Measuring flow velocity at elevated temperature with a hot wire anemometer calibrated in cold flow S.F. Benjamin, C.A. Roberts</p><p> 703 -- 706</p><p> Distribution parameter and drift velocity of drift-flux model in bubbly flow T. Hibiki, M. Ishii</p><p> 707 -- 721</p><p> Development of tree-shaped flows by adding new users to existing networks of hot water pipes W. Wechsatol, S. Lorente, A. Bejan</p><p> 723 -- 733</p><p> Heat transfer enhancement with a surfactant on horizontal bundle tubes of an absorber J.I. Yoon, E. Kim, K.H. Choi, W.S. Seol</p><p> 735 -- 741</p><p> Mathematical description of the diffusion in a temperature field and measuring the heat of transport V.I. Rudakov, V.V. Ovcharov</p><p> 743 -- 753<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Heat transfer in a pulsating heat pipe with open end Yuwen Zhang, Amir Faghri</p><p> 755 -- 764</p><p> Heat transfer in rectangular microchannels Gokturk Tunc, Yildiz Bayazitoglu</p><p> 765 -- 773</p><p> Numerical investigation of the three-dimensional natural convection inside horizontal concentric annulus with specified wall temperature or heat flux Chun-Lang Yeh</p><p> 775 -- 784</p><p> Numerical computations of Factor Xa and thrombin productions using a finitevolume method John C. Chai, T.M. Tsai, Ji Jinn Foo, Vincent Chan</p><p> 785 -- 792</p><p> Influence of the Prandtl number on the location of recirculation eddies in thermocapillary flows Jean-François Mercier, Christiane Normand</p><p> 793 -- 801<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Thermal processing of viscous non-Newtonian fluids in annular ducts: effects of power-law rheology, duct eccentricity, and thermal boundary conditions R.M. Manglik, P. Fang</p><p> 803 -- 814</p><p> Prediction of turbine blade heat transfer and aerodynamics using a new unsteady boundary layer transition model M.T. Schobeiri, P. Chakka</p><p> 815 -- 829</p><p> Secondary flow and forced convection heat transfer near endwall boundary layer fences in a 90° turning duct Cengiz Camci, Dean H. Rizzo</p><p> 831 -- 843</p><p> Non-iterative condensation modeling for steam condensation with non-condensable gas in a vertical tube Hee Cheon No, Hyun Sik Park<div class="bg-primary-100 rounded-lg my-6 px-2 py-3 font-semibold insert" style="color: rgb(37, 99, 235)"><div class="text-common !leading-common ml-1 insert" style="margin-top: 0.2rem; margin-bottom: 0.2rem">See Also</div><a class="list-item toc-h2 py-1" style="border-bottom: none" href="https://juxtasoftware.com/article/list-of-visual-kei-lives/6311" target="_blank" rel="noopener">List of visual kei lives | ビジュアル系のライブ・一覧</a></div></p><p> 845 -- 854</p><p> Mechanisms of heat flow in suspensions of nano-sized particles (nanofluids) P. Keblinski, S.R. Phillpot, S.U.S. Choi, J.A. Eastman</p><p> 855 -- 863<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Numerical analysis for photothermal poling process of nonlinear optical polymer film Hiroaki Kobayashi, Masaki Kubo, Takao Tsukada, Mitsunori Hozawa</p><p> 865 -- 875</p><p> Measurement of endwall heat transfer and pressure drop in a pin-fin wedge duct Jenn-Jiang Hwang, Chau-Chin Lui</p><p> 877 -- 889</p><p> Etude des transferts couplés de matière et de chaleur dans une cavité rectangulaire: application à une cellule de distillation. Study of heat and mass transfer in a rectangular cavity: application to a distillation cell S. Ben Jabrallah, A. Belghith, J.P. Corriou</p><p> 891 -- 904</p><p> Prévision numérique des écarts entre grandeurs statistiques au sens de Favre et grandeurs statistiques au sens de Reynolds à partir d'un modèle au second ordre</p><p> 905 -- 918</p><p> M.A. Ould Sid Ahmed, T. Lili Experimental investigation of forced convection heat transfer augmentation with metallic fibrous materials Devarakonda Angirasa</p><p> 919 -- 922<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Thermal entry region analysis through the finite integral transform technique in laminar flow of Bingham fluids within concentric annular ducts U.C.S. Nascimento, E.N. Macêdo, J.N.N. Quaresma</p><p> 923 -- 929</p><p> Effects of radiation and variable viscosity on a MHD free convection flow past a semiinfinite flat plate with an aligned magnetic field in the case of unsteady flow M.A. Seddeek</p><p> 931 -- 935</p><p> Volume (issue): 45 (3) 2002 Experimental study of the convective heat transfer from in-line and staggered configurations of two wall-mounted cubes E.R. Meinders, K. Hanjali</p><p> 465 -- 482</p><p> The influence of additive molecular weight and ionic nature on the pool boiling performance of aqueous surfactant solutions Vivek M. Wasekar, Raj M. Manglik</p><p> 483 -- 493</p><p> A model for high-pressure vaporization of droplets of complex liquid mixtures using continuous thermodynamics Guang-Sheng Zhu, Rolf D. Reitz</p><p> 495 -- 507<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> A new mathematical method to solve highly coupled equations of heat and mass transfer in porous media N. Mendes, P.C. Philippi, R. Lamberts</p><p> 509 -- 518</p><p> Exploring injected droplet size effects on steady liquid penetration in a Diesel spray with a two-fluid model V.A. Iyer, J. Abraham, V. Magi</p><p> 519 -- 531</p><p> Transient convective heat transfer of steam-water two-phase flow in a helical tube under pressure drop type oscillations Lie-Jin Guo, Zi-Ping Feng, Xue-jun Chen</p><p> 533 -- 542</p><p> Heat transfer and pressure drop for low Reynolds turbulent flow in helically dimpled tubes Pedro G. Vicente, Alberto García, Antonio Viedma</p><p> 543 -- 553</p><p> Enhancement of mass transfer in a two-layer Taylor-Couette apparatus with axial flow A.L. Yarin, A.Yu. Gelfgat, P.Z. Bar-Yoseph</p><p> 555 -- 570<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Heat transfer and friction coefficients in corrugated ducts confined by sinusoidal and arc curves J.L. Niu, L.Z. Zhang</p><p> 571 -- 578</p><p> Calculating transient wall heat flux from measurements of surface temperature L. Reichelt, U. Meingast, U. Renz</p><p> 579 -- 584</p><p> Flow characteristics on a heated rotating disc under natural convection dominant conditions Fumimaru Ogino, Takaji Inamuro, Kei Mizuta, Atsushi Kino, Ryuji Tomita</p><p> 585 -- 595</p><p> A study of CaCO3 fouling with a microscopic imaging technique Won Tae Kim, Cheolho Bai, Young I. Cho</p><p> 597 -- 607</p><p> Experimental and numerical study on a miniature Joule-Thomson cooler for steadystate characteristics K.C. Ng, H. Xue, J.B. Wang</p><p> 609 -- 618<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3-D finite element simulation of wafer thermal distortion and stress fields in exposure process Zone-Ching Lin, Wen-Jang Wu</p><p> 619 -- 630</p><p> Numerical simulation of bubbly two-phase flow in a narrow channel Z.L. Yang, B. Palm, B.R. Sehgal</p><p> 631 -- 639</p><p> Fully developed mixed convection and flow reversal in a vertical rectangular duct with uniform wall heat flux A. Barletta</p><p> 641 -- 654</p><p> Conjugated heat transfer in circular ducts with a power-law laminar convection fluid flow N. Luna, F. Méndez, C. Treviño</p><p> 655 -- 666</p><p> Active control of natural convection in a fluid layer with volume heat dissipation T. Marimbordes, A. Ould El Moctar, H. Peerhossaini</p><p> 667 -- 678<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Wall shear rate in the Taylor-Couette-Poiseuille flow at low axial Reynolds number Eric Dumont, Francine Fayolle, Václav Sobolík, Jack Legrand</p><p> 679 -- 689</p><p> Visualization of boiling bubble dynamics using a flat uniformly heated transparent surface C.C. Pascual, S.M. Jeter, S.I. Abdel-Khalik</p><p> 691 -- 696</p><p> Radiative heat transfer in absorbing-emitting-scattering gray medium inside 1-D gray 697 -- 700 Cartesian enclosure using the collapsed dimension method Subhash C. Mishra, Manohar Prasad Volume (issue): 45 (2) 2002 Spatio-temporal analysis of nucleate pool boiling: identification of nucleation sites 237 -- 253 using non-orthogonal empirical functions Patrick E. McSharry, Jerome H. Ellepola, Jost von Hardenberg, Leonard A. Smith, David B.R. Kenning, Kevin Judd Experimental study of pressurized gas-fluidized bed heat transfer Art Yew Looi, Qi-Ming Mao, Martin Rhodes</p><p> 255 -- 265</p><p> Magnetizing force modeled and numerically solved for natural convection of air in a cubic enclosure: effect of the direction of the magnetic field Toshio Tagawa, Ryoji Shigemitsu, Hiroyuki Ozoe</p><p> 267 -- 277</p><p> Application of a hybrid model of mushy zone to macrosegregation in alloy solidification Mahmut D. Mat, Olusegun J. Ilegbusi</p><p> 279 -- 289<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Development of a diabatic two-phase flow pattern map for horizontal flow boiling O. Zürcher, D. Favrat, J.R. Thome</p><p> 291 -- 301</p><p> Evaporation of refrigerants in a horizontal tube: an improved flow pattern dependent heat transfer model compared to ammonia data</p><p> 303 -- 317</p><p> heat transfer model compared to ammonia data O. Zürcher, D. Favrat, J.R. Thome Laminar free convection from a vertical plate with uniform surface heat flux in chemically reacting systems C. Cianfrini, M. Corcione, D.M. Fontana</p><p> 319 -- 329</p><p> Conjugate forced convection-conduction heat transfer analysis of a heat generating vertical cylinder G. Jilani, S. Jayaraj, M. Adeel Ahmad</p><p> 331 -- 341</p><p> Thermocline dynamics in a thermally stratified store J. van Berkel, C.C.M. Rindt, A.A. van Steenhoven</p><p> 343 -- 356<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> A model of through-air drying of tufted textile materials H. Stephen Lee, Wallace W. Carr, Haskell W. Beckham, Johannes Leisen</p><p> 357 -- 366</p><p> An investigation of microscale explosive vaporization of water on an ultrathin Pt wire S. Glod, D. Poulikakos, Z. Zhao, G. Yadigaroglu</p><p> 367 -- 379</p><p> Solution of inverse heat conduction problems using maximum entropy method Sun Kyoung Kim, Woo Il Lee</p><p> 381 -- 391</p><p> Natural convection of non-Newtonian fluids through permeable axisymmetric and two-dimensional bodies in a porous medium Shih-Chieh Wang, Cha'o-Kuang Chen, Yue-Tzu Yang</p><p> 393 -- 408</p><p> On the profile of the liquid wedge underneath a growing vapour bubble and the reversal of the wall heat flux J. Mitrovic</p><p> 409 -- 415<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Internal distribution of radiation absorption in one-dimensional semitransparent medium L.H. Liu, H.P. Tan, Q.Z. Yu</p><p> 417 -- 424</p><p> Transient thermal analysis of semitransparent composite layer with an opaque boundary Ping-Yang Wang, Hui-Er Cheng, He-Ping Tan</p><p> 425 -- 440</p><p> Similarity of transport processes in disperse systems with suspended particles Yu.S. Teplitskiy</p><p> 441 -- 449</p><p> Unsteady natural convection boundary-layer flow along a vertical isothermal plate in a linearly stratified fluid with Pr&gt;1 Wenxian Lin, S.W. Armfield, P.L. Morgan</p><p> 451 -- 459</p><p> Effect of viscous dissipation on forced-convection heat transfer in cylindrical packedbeds San San Yee, Kouichi Kamiuto</p><p> 461 -- 464<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 45 (1) 2002 Heat and mass transfer bibliography Estimation of two-sided boundary conditions for two-dimensional inverse heat conduction problems Han-Taw Chen, Sheng-Yih Lin, Hung-Ru Wang, Lih-Chuan Fang</p><p> 1 -- 14 15 -- 23</p><p> Thermally developing flow in elliptic ducts with axially variable wall temperature distribution V.D. Sakalis, P.M. Hatzikonstantinou, N. Kafousias</p><p> 25 -- 35</p><p> A new correlation for turbulent mass transfer from liquid droplets Madjid Birouk, Iskender Gökalp</p><p> 37 -- 45</p><p> Energy separation in shear layers B. Han, R.J. Goldstein, H.G. Choi</p><p> 47 -- 55</p><p> Heat transfer in condensing, pulsating flows Scott E. Hommema, Keith A. Temple, James D. Jones, Victor W. Goldschmidt</p><p> 57 -- 65<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Solution to inverse heat conduction problems employing singular value decomposition and model-reduction J.R. Shenefelt, R. Luck, R.P. Taylor, J.T. Berry</p><p> 67 -- 74</p><p> Effects of concentration and temperature on the coupled heat and mass transport in liquid mixtures Y. Demirel, S.I. Sandler</p><p> 75 -- 86</p><p> New entrainment rate correlation in annular two-phase flow applicable to wide range of flow condition Tomio Okawa, Tsuyoshi Kitahara, Kenji Yoshida, Tadayoshi Matsumoto, Isao Kataoka</p><p> 87 -- 98</p><p> Compressible flow and heat transfer in ultracentrifuges: hybrid analysis via integral tranforms L.M. Pereira, J.S. Pérez Guerrero, N. Brazão, R.M. Cotta</p><p> 99 -- 112</p><p> Effect of bulk flow pulsations on film cooling with compound angle holes Joon Sik Lee, In Sung Jung</p><p> 113 -- 123<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Magnetic field effects on g-jitter induced flow and solute transport Bo Pan, D-Y Shang, B.Q. Li, H.C. de Groh</p><p> 125 -- 144</p><p> Flow visualization and film cooling effectiveness measurements around shaped holes with compound angle orientations Hong-Wook Lee, Jung Joon Park, Joon Sik Lee</p><p> 145 -- 156</p><p> Instability of the Marangoni convection in a liquid bridge with liquid encapsulation under microgravity condition Mingwei Li, Danling Zeng, Tingxia Zhu</p><p> 157 -- 164</p><p> Rapid vaporization of subcooled liquid in a capillary structure T.S. Zhao, Q. Liao</p><p> 165 -- 172</p><p> Comparison between local and homogenized models of radiative transfer in a set of parallel ducts considered as a porous medium M. Tancrez, M. Hilka, J. Taine</p><p> 173 -- 180<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Observation of volume variation effects in turbulent free convection Michel Pavageau, Claude Rey</p><p> 181 -- 192</p><p> Contact temperature and wear of composite friction elements during braking S.J. Matysiak, A.A. Yevtushenko, E.G. Ivanyk</p><p> 193 -- 199</p><p> Augmentation of heat transfer during filmwise condensation of steam and R-134a over single horizontal finned tubes</p><p> 201 -- 211</p><p> Ravi Kumar, H.K. Varma, Bikash Mohanty, K.N. Agrawal Heat transfer enhancement by the perforated plate installed between an impinging jet and the target plate Dae Hee Lee, Young Min Lee, Yun Taek Kim, Se Youl Won, Young Suk Chung</p><p> 213 -- 217</p><p> A note on the prediction of liquid hold-up with the stratified roll wave regime for gas/liquid co-current flow in horizontal pipes P.L. Spedding, R.K. Cooper</p><p> 219 -- 222<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Turbulent heat transfer from a flat surface to a swirling round impinging jet Dae Hee Lee, Se Youl Won, Yun Taek Kim, Young Suk Chung</p><p> 223 -- 227</p><p> Momentum boundary layer and its influence on the convective heat transfer in porous media D.-Y. Lee, J.S. Jin, B.H. Kang</p><p> 229 -- 233</p><p> Call for papers: The 13th International</p><p> 235 -- 236</p><p> Volume (issue): 44 (24) 2001 An investigation of a block moving back and forth on a heat plate under a slot jet. Part II (the effects of block moving distance and vacant distance) Wu-Shung Fu, Ke-Nan Wang</p><p> 4649 -- 4665</p><p> Stability analysis of double-diffusive convection in superposed fluid and porous layers using a one-equation model Pinghua Zhao, C.F. Chen</p><p> 4625 -- 4633<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> On the linear heat transfer correlation of a heated circular cylinder in laminar crossflow using a new representative temperature concept An-Bang Wang, Zdenk Trávníek</p><p> 4635 -- 4647</p><p> Effect of inclination on the air-side performance of a brazed aluminum heat exchanger under dry and wet conditions Man-Hoe Kim, Baek Youn, Clark W. Bullard</p><p> 4613 -- 4623</p><p> On the heat removal characteristics and the analytical model of a thermal energy storage capsule using gelled Glauber's salt as the PCM Akio Saito, Seiji Okawa, Tadafumi Shintani, Ryuichiro Iwamoto</p><p> 4693 -- 4701</p><p> A study of buoyancy-driven flow in a confined fluid overlying a porous layer J.J. Valencia-López, J.A. Ochoa-Tapia</p><p> 4725 -- 4736</p><p> Transient laminar natural convection along rectangular ducts G.L. Morini, M. Spiga</p><p> 4703 -- 4710<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Subcooled water critical pressure and critical flow rate in a safety valve Se Won Kim, Hee Cheon No</p><p> 4567 -- 4577</p><p> Fundamental correlations for laminar and turbulent free convection from a uniformly heated vertical plate</p><p> 4605 -- 4611</p><p> Orhan Ayd n, Laila Guessous Simulation by solutal convection of a thermal plume in a confined stratified environment: application to displacement ventilation O. Auban, F. Lemoine, P. Vallette, J.R. Fontaine</p><p> 4679 -- 4691</p><p> Effects of ambient turbulence and fuel properties on the evaporation rate of single droplets J.-S. Wu, Y.-J. Liu, H.-J. Sheen</p><p> 4593 -- 4603</p><p> Studies of splat morphology and rapid solidification during thermal spraying H. Zhang, X.Y. Wang, L.L. Zheng, X.Y. Jiang</p><p> 4579 -- 4592<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Diffusive mass transfer with superimposed frictional flow W. Kast</p><p> 4717 -- 4724</p><p> Volume contents</p><p> III -- XXVIII</p><p> In-flight oxidation of composite powder particles during thermal spraying A.M. Ahmed, R.H. Rangel, V.V. Sobolev, J.M. Guilemany</p><p> 4667 -- 4677</p><p> Author index</p><p> XXIX -- XXXIII</p><p> Thermal convection over flat plates possessing an irregular leading edge P.D. Weidman</p><p> 4711 -- 4715<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 44 (23) 2001 Effects of internal heat transfer and preferential diffusion on stretched spray flames Shuhn-Shyurng Hou, Ta-Hui Lin</p><p> 4391 -- 4400</p><p> Flow structure and local Nusselt number variations in a channel with dimples and protrusions on opposite walls P.M. Ligrani, G.I. Mahmood, J.L. Harrison, C.M. Clayton, D.L. Nelson</p><p> 4413 -- 4425</p><p> Exact dual solutions occurring in the Darcy mixed convection flow E. Magyari, I. Pop, B. Keller</p><p> 4563 -- 4566</p><p> Heat and mass transfer coefficients of viscous spheres Zhi-Gang Feng, Efstathios E. Michaelides</p><p> 4445 -- 4454</p><p> On the discrepancies between theoretical and experimental results for microgravity droplet evaporation Jeng-Renn Yang, Shwin-Chung Wong</p><p> 4433 -- 4443<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> A phenomenological approach to correcting DNB-type critical heat flux for nonuniform axial power shapes Dae-Hyun Hwang, Cheol Park, Sung-Quun Zee</p><p> 4483 -- 4492</p><p> Active control of phase change from supercooled water to ice by ultrasonic vibration 1. Control of freezing temperature Takaaki Inada, Xu Zhang, Akira Yabe, Yoshiyuki Kozawa</p><p> 4523 -- 4531</p><p> Acoustically controlled heat transfer of ferromagnetic fluid Feng Wu, Chih Wu, Fangzhong Guo, Duanyong Li</p><p> 4427 -- 4432</p><p> Drop distributions and numerical simulation of dropwise condensation heat transfer Yu-Ting Wu, Chun-Xin Yang, Xiu-Gan Yuan</p><p> 4455 -- 4464</p><p> Active control of phase change from supercooled water to ice by ultrasonic vibration 2. Generation of ice slurries and effect of bubble nuclei Xu Zhang, Takaaki Inada, Akira Yabe, Shushen Lu, Yoshiyuki Kozawa</p><p> 4533 -- 4539<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Multiple solutions for double diffusive convection in a shallow porous cavity with vertical fluxes of heat and mass L. Kalla, M. Mamou, P. Vasseur, L. Robillard</p><p> 4493 -- 4504</p><p> Numerical modeling and experimental investigation on the characteristics of molten pool during laser processing L.X. Yang, X.F. Peng, B.X. Wang</p><p> 4465 -- 4473</p><p> Experimental study of the forces associated with mixed convection from a heated sphere at small Reynolds and Grashof numbers. Part I: cross-flow G. Ziskind, B. Zhao, D. Katoshevski, E. Bar-Ziv</p><p> 4381 -- 4389</p><p> Condensation characteristics inside a vertical tube considering the presence of mass 4475 -- 4482 transfer, vapor velocity and interfacial shear Yang Pan Influence of internal turbulent structure on intensity of velocity and temperature fluctuations of particles I.V. Derevich</p><p> 4505 -- 4521</p><p> Prediction of CHF enhancement due to flow obstacles Y. Guo, D.C. Groeneveld, S.C. Cheng</p><p> 4557 -- 4561<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Exact solutions for heat and mass transfer in a falling laminar film J.L. Lockshin, M.K. Zakharov</p><p> 4541 -- 4552</p><p> Numerical treatment of rapidly changing and discontinuous conductivities V.R. Voller</p><p> 4553 -- 4556</p><p> Analysis of non-Darcian effects on temperature differentials in porous media A. Marafie, K. Vafai</p><p> 4401 -- 4411</p><p> Volume (issue): 44 (22) 2001 Correlation between heat transfer and pressure drop in channels with periodically grooved parts Takahiro Adachi, Haruo Uehara</p><p> 4333 -- 4343</p><p> An experimental investigation of a mass exchanger for transferring water vapor and inhibiting the transfer of other gases E.M. Sparrow, J.P. Abraham, G.P. Martin, J.C.Y. Tong</p><p> 4313 -- 4321<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Mixed convection with viscous dissipation in an inclined channel with prescribed wall temperatures A. Barletta, E. Zanchini</p><p> 4267 -- 4275</p><p> Constructal optimization of nonuniformly distributed tree-shaped flow structures for conduction M. Almogbel, A. Bejan</p><p> 4185 -- 4194</p><p> Critical heat flux prediction for saturated flow boiling of water in vertical tubes Gian Piero Celata, Kaichiro Mishima, Giuseppe Zummo</p><p> 4323 -- 4331</p><p> A numerical investigation of louvered fin-and-tube heat exchangers having circular and oval tube configurations Jin-Sheng Leu, Min-Sheng Liu, Jane-Sunn Liaw, Chi-Chuan Wang</p><p> 4235 -- 4243</p><p> Heat transfer enhancement by the chimney effect in a vertical isoflux channel</p><p> 4345 -- 4357<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> A. Auletta, O. Manca, B. Morrone, V. Naso Effects of water vapor condensation on the convection heat transfer of wet flue gas in a vertical tube L. Jia, X.F. Peng, Y. Yan, J.D. Sun, X.P. Li</p><p> 4257 -- 4265</p><p> Spatial development of disturbances in plane Poiseuille flow: a direct numerical simulation using a commercial CFD code J. Severin, K. Beckert, H. Herwig</p><p> 4359 -- 4367</p><p> Slip-flow heat transfer in rectangular microchannels Shiping Yu, Timothy A. Ameel</p><p> 4225 -- 4234</p><p> Pool-boiling CHF enhancement by modulated porous-layer coating: theory and experiment Scott G. Liter, Massoud Kaviany</p><p> 4287 -- 4311</p><p> Film condensation of water in a vertical tube with countercurrent vapour flow S. Thumm, Ch. Philipp, U. Gross</p><p> 4245 -- 4256<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Heat- and mass-transfer analysis for the condensing film flow along a vertical grooved tube I.S. Park, D.H. Choi</p><p> 4277 -- 4285</p><p> Friction and heat transfer characteristics of laminar swirl flow through a circular tube fitted with regularly spaced twisted-tape elements S.K. Saha, A. Dutta, S.K. Dhal</p><p> 4211 -- 4223</p><p> The interaction of thermal nonequilibrium and heterogeneous conductivity effects in forced convection in layered porous channels D.A. Nield, A.V. Kuznetsov</p><p> 4369 -- 4373</p><p> A two-energy equation model for conduction and convection in porous media Akira Nakayama, Fujio Kuwahara, Masazumi Sugiyama, Guoliang Xu</p><p> 4375 -- 4379</p><p> Geometry effects on flow transition in multilouvered fins - onset, propagation, and characteristic frequencies D.K. Tafti, X. Zhang</p><p> 4195 -- 4210<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 44 (21) 2001 A statistical model of wave scattering from random rough surfaces Kakuen Tang, Richard O. Buckius</p><p> 4059 -- 4073</p><p> Temperature measurements by CARS and intrusive probe in an air-hydrogen supersonic combustion P. Magre, G. Collin, O. Pin, J.M. Badie, G. Olalde, M. Clément</p><p> 4095 -- 4105</p><p> Dry patch interaction caused by lateral conduction in transition boiling L.H. Chai, M. Shoji, X.F. Peng</p><p> 4169 -- 4173</p><p> Optimum jet-to-jet spacing of heat transfer for staggered arrays of impinging air jets Jung-Yang San, Mao-De Lai</p><p> 3997 -- 4007</p><p> Simulation of fully developed laminar heat and mass transfer in fuel cell ducts with different cross-sections Jinliang Yuan, Masoud Rokni, Bengt Sundén</p><p> 4047 -- 4058<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> "Integer" and "fractional" solutions of Fourier's problem of a ring heated by</p><p> 4181 -- 4184</p><p> moving -source of energy Y.S. Yoon, V.N. Cherinko, S.V. Kletsky, S.J. Kang Analysis of micro-Couette flow using the Burnett equations H. Xue, H.M. Ji, C. Shu</p><p> 4139 -- 4146</p><p> Numerical analysis of strong evaporation-condensation through the porous matter A.P. Kryukov, V.Yu. Levashov, I.N. Shishkova</p><p> 4119 -- 4125</p><p> Le contact thermique pièce-outil lors d'une opération de forgeage à chaud: 4107 -- 4117 validation de l'hypothèse de résistance thermique de contact et influence de la loi de comportement de la pièce. The workpiece-die thermal contact during a hot forging process: validation of the thermal contact resistance assumption and influence of the workpiece constitutive law B. Bourouga, V. Goizet, J.P. Bardon The onset of convection in an inclined anisotropic porous layer D.A.S. Rees, A. Postelnicu</p><p> 4127 -- 4138</p><p> Determination of temperature in glass with a fluorescence method C.L. Shepard, B.D. Cannon, M.A. Khaleel</p><p> 4027 -- 4034<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Use of the boundary element method to determine the thermal conductivity tensor of an anisotropic medium N.S. Mera, L. Elliott, D.B. Ingham, D. Lesnic</p><p> 4157 -- 4167</p><p> New-wall modeling for complex flows using the large eddy simulation technique in curvilinear coordinates Y.A. Hassan, H.R. Barsamian</p><p> 4009 -- 4026</p><p> An experimental study of a vibrating screen as means of absorption enhancement Hirojuki Tsuda, Horacio Perez-Blanco</p><p> 4087 -- 4094</p><p> A theoretical model of brick drying as a conjugate problem K. Murugesan, H.N. Suresh, K.N. Seetharamu, P.A. Aswatha Narayana, T. Sundararajan</p><p> 4075 -- 4086</p><p> Approach for incorporating narrow band nonuniformity into nongray analysis of radiative heat transfer in nonisothermal and nonhomogeneous gas fields Tatsuyuki Okamoto, Tetsuo Mutou, Toshimi Takagi</p><p> 4147 -- 4156<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Two-dimensional large-eddy simulation of turbulent natural convection due to internal heat generation Andrej Horvat, Ivo Kljenak, Jure Marn</p><p> 3985 -- 3995</p><p> Thermal phase lag in a solid containing periodic planar cracks John R. Dryden, Frank Zok</p><p> 4035 -- 4046</p><p> Boiling curves - bifurcation and catastrophe L.H. Chai, M. Shoji</p><p> 4175 -- 4179</p><p> Volume (issue): 44 (20) 2001 Numerical study of bottom-wall temperature modulation effects on thermal instability and oscillatory cellular convection in a rectangular enclosure C.Y. Soong, P.Y. Tzeng, C.D. Hsieh</p><p> 3855 -- 3868</p><p> Green's functions, temperature and heat flux in the rectangle Kevin D. Cole, David H.Y. Yen</p><p> 3883 -- 3894<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Interferometric probing of rapid vaporization at a solid-liquid interface induced by pulsed-laser irradiation Dongsik Kim, Hee K. Park, Costas P. Grigoropoulos</p><p> 3843 -- 3853</p><p> Flow around a bubble on a heated wall in a cross-flowing liquid under microgravity condition Avijit Bhunia, Yasuhiro Kamotani</p><p> 3895 -- 3905</p><p> On the validity of the adiabatic spreading assumption in droplet impact cooling W.M. Healy, J.G. Hartley, S.I. Abdel-Khalik</p><p> 3869 -- 3881</p><p> The extended Graetz problem with piecewise constant wall heat flux for pipe and channel flows B. Weigand, M. Kanzamar, H. Beer</p><p> 3941 -- 3952</p><p> Optimization study and heat transfer comparison of staggered circular and elliptic tubes in forced convection R.S. Matos, J.V.C. Vargas, T.A. Laursen, F.E.M. Saboya</p><p> 3953 -- 3961<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Integrative thermodynamic optimization of the environmental control system of an aircraft Jose V.C. Vargas, Adrian Bejan</p><p> 3907 -- 3917</p><p> High Schmidt mass transfer in a turbulent impinging slot-jet flow Radek Chalupa, Mingyong Chen, Vijay Modi, Alan C. West</p><p> 3775 -- 3785</p><p> Use of genetic algorithms for the simultaneous estimation of thin films thermal conductivity and contact resistances S. Orain, Y. Scudeller, S. Garcia, T. Brousse</p><p> 3973 -- 3984</p><p> High Schmidt number mass transfer using Chapman-Kuhn's near wall coherent structure model Mingyong Chen, Qian Chen, Jiang Zhe, Vijay Modi</p><p> 3833 -- 3842</p><p> Material response to thermal loading due to short pulse laser heating B.S. Yilbas, A.F.M. Arif</p><p> 3787 -- 3798<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Natural convection heat transfer in an enclosure with a heated backward step T.S. Chang, Y.L. Tsay</p><p> 3963 -- 3971</p><p> Fully developed turbulent flow and heat transfer at fiber-flocked surfaces Kurt O. Lund</p><p> 3799 -- 3810</p><p> Liquid blockage of vapor transport lines in low Bond number systems due to capillary-driven flows in condensed annular films Jeffrey S. Allen, Kevin P. Hallinan</p><p> 3931 -- 3940</p><p> An algorithm for solving multidimensional inverse heat conduction problem Somchart Chantasiriwan</p><p> 3823 -- 3832</p><p> Tuning of a fuzzy rule set for controlling convergence of a CFD solver in turbulent flow Zoran Dragojlovic, Deborah A. Kaminski, Juntaek Ryoo</p><p> 3811 -- 3822<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Transient mass and heat transfer in a smooth pipe</p><p> 3919 -- 3930</p><p> N. Mahinpey, M. Ojha, O. Trass Volume (issue): 44 (19) 2001 Near wake of a circular cylinder submitted to blowing - I. Boundary layers evolution L. Mathelin, F. Bataille, A. Lallemand</p><p> 3701 -- 3708</p><p> Three-dimensional oscillatory thermocapillary convection in liquid bridge under 3765 -- 3774 microgravity Zhong Zeng, Hiroshi Mizuseki, Kiyoshi Simamura, Tsuguo Fukuda, Kazuyuki Higashino, Yoshiyuki Kawazoe Near wake of a circular cylinder submitted to blowing - II. Impact on the dynamics L. Mathelin, F. Bataille, A. Lallemand</p><p> 3709 -- 3719</p><p> Utilisation d'une double enceinte pour déterminer le coefficient de diffusion d'eau 3731 -- 3744 liée dans le bois en régime transitoire: recours à la simulation numérique pour valider la méthode d'identification. A double climatic chamber used to measure the diffusion coefficient of water in wood in unsteady-state conditions: determination of the best fitting method by numerical simulation Eusèbe Agoua, Sylvain Zohoun, Patrick Perré Analytical and experimental response time to flow rate step along a counter flow double pipe heat exchanger M.A. Abdelghani-Idrissi, F. Bagui, L. Estel</p><p> 3721 -- 3730</p><p> Heat transfer - a review of 1999 literature 3579 -- 3699 R.J. Goldstein, E.R.G. Eckert, W.E. Ibele, S.V. Patankar, T.W. Simon, T.H. Kuehn, P.J. Strykowski, K.K. Tamma, A. Bar-Cohen, J.V.R. Heberlein, J.H. Davidson, J. Bischof, F.A. Kulacki, U. Kortshagen, S. Garrick Holographic interferometry applied to coupled free convection and radiative transfer in a cavity containing a vertical plate between 290 and 650 K E. Lacona, J. Taine</p><p> 3755 -- 3764<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> The single-blow transient testing technique for plate-fin heat exchangers Xing Luo, Wilfried Roetzel</p><p> 3745 -- 3753</p><p> Volume (issue): 44 (18) 2001 Approximate solutions for metallic regenerative heat exchangers H. Klein, G. Eigenberger</p><p> 3553 -- 3563</p><p> A comparative study of compact enhanced fin-and-tube heat exchangers Chi-Chuan Wang, Wei-Song Lee, Wen-Jenn Sheu</p><p> 3565 -- 3573</p><p> Prandtl-number effects and generalized correlations for confined and submerged jet impingement Chin-Yuan Li, Suresh V. Garimella</p><p> 3471 -- 3480</p><p> Convection in a square cavity filled with an anisotropic porous medium saturated with water near 4°C W. Zheng, L. Robillard, P. Vasseur</p><p> 3463 -- 3470<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Comment on the paper W.W. Lin, J.C. Yang, D.J. Lee, "Metastable pin fin boiling", IJHMT 43 (9) (2000) 1629-1635 S.A. Kovalev, V.M. Zhukov, S.V. Usatikov</p><p> 3575 -- 3577</p><p> Liquid steel flow, heat transfer and solidification in mold of continuous casters during grade transition X.K. Lan, J.M. Khodadadi</p><p> 3431 -- 3442</p><p> Freezing dynamics of molten solder droplets impacting onto flat substrates in 3513 -- 3528 reduced gravity S. Haferl, V. Butty, D. Poulikakos, J. Giannakouros, K. Boomsma, C.M. Megaridis, V. Nayagam Growth of a dry spot under a vapor bubble at high heat flux and high pressure V.S. Nikolayev, D.A. Beysens, G.-L. Lagier, J. Hegseth</p><p> 3499 -- 3511</p><p> Analysis of flow reversal for laminar mixed convection in a vertical rectangular duct with one or more isothermal walls A. Barletta</p><p> 3481 -- 3497</p><p> Fully developed laminar flow in trapezoidal grooves with shear stress at the liquidvapor interface Scott K. Thomas, Richard C. Lykins, Kirk L. Yerkes</p><p> 3397 -- 3412<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> A conservation-based discretization approach for conjugate heat transfer calculations in hot-gas ducting turbomachinery components E. Papanicolaou, D. Giebert, R. Koch, A. Schulz</p><p> 3413 -- 3429</p><p> Local heat transfer around a wall-mounted cube in the turbulent boundary layer Hajime Nakamura, Tamotsu Igarashi, Takayuki Tsutsui</p><p> 3385 -- 3395</p><p> Heat transfer and pressure drop in a rectangular channel with diamond-shaped elements Giovanni Tanda</p><p> 3529 -- 3541</p><p> Heat transfer and internal flow characteristics of a coil-inserted rotating heat pipe Jin S. Lee, Chul J. Kim</p><p> 3543 -- 3551</p><p> Interfacial area concentration in steady fully-developed bubbly flow Takashi Hibiki, Mamoru Ishii</p><p> 3443 -- 3461<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 44 (17) 2001 Analysis of heat transfer enhancement in coiled-tube heat exchangers Narasimha Acharya, Mihir Sen, Hsueh-Chia Chang</p><p> 3189 -- 3199</p><p> An experimental investigation into natural convection heat transfer from horizontal isothermal circular disks C.J. Kobus, G.L. Wedekind</p><p> 3381 -- 3384</p><p> Optimal shape and arrangement of staggered pins in the channel of a plate heat exchanger Kwan-Soo Lee, Woo-Seung Kim, Jong-Min Si</p><p> 3223 -- 3231</p><p> A new finite integral transform pair for hyperbolic conduction problems in heterogeneous media P. Duhamel</p><p> 3307 -- 3320</p><p> Removing the marching breakdown of the boundary-layer equations for mixed convection above a horizontal plate Pierre-Yves Lagrée</p><p> 3359 -- 3372<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Modeling of diffusion filtration combustion radiative burner</p><p> 3265 -- 3272</p><p> Kirill V. Dobrego, Igor M. Kozlov, Serguei A. Zhdanok, Nikolai N. Gnesdilov Measurement of solute diffusivities. Part II. Experimental measurements in a convection-controlled shear cell. Interest of a uniform magnetic field V. Botton, P. Lehmann, R. Bolcato, R. Moreau, R. Haettel</p><p> 3345 -- 3357</p><p> Mass transfer process during the NaClO3 crystal growth process Q. Kang, L. Duan, W.R. Hu</p><p> 3213 -- 3222</p><p> Conjugate natural convection in a square enclosure containing volumetric sources A. Liaqat, A.C. Baytas</p><p> 3273 -- 3280</p><p> Theoretical and experimental analysis of droplet diameter, temperature, and evaporation rate evolution in cryogenic sprays G. Aguilar, B. Majaron, W. Verkruysse, Y. Zhou, J.S. Nelson, E.J. Lavernia</p><p> 3201 -- 3211<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Non-Fourier effects on transient temperature response in semitransparent medium caused by laser pulse L.H. Liu, H.P. Tan, T.W. Tong</p><p> 3335 -- 3344</p><p> Condensation of vapours on a fin in the presence of non-condensable gas P.K. Sarma, M. Anjaneya Reddy, A.E. Bergles, Sadik Kakac</p><p> 3233 -- 3240</p><p> Transient force and free convection along a vertical wavy surface in micropolar fluids Chi-Chang Wang, Cha'o-Kuang Chen</p><p> 3241 -- 3251</p><p> Numerical study of natural convection in an eccentric annulus between a square outer cylinder and a circular inner cylinder using DQ method C. Shu, H. Xue, Y.D. Zhu</p><p> 3321 -- 3333</p><p> Heat transfer enhancement in turbulent upward flows of liquid-solid suspensions through vertical annuli Tülay A. Özbelge</p><p> 3373 -- 3379<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Dispersion radiale et axiale dans les écoulements tourbillonnaires de Taylor–Couette et Poiseuille. Radial and axial dispersion in Taylor–Couette and Poiseuille vortex flows L. Guy Raguin, Mark Shannon, John G. Georgiadis</p><p> 3295 -- 3306</p><p> Elliptic temperature contours under a transverse magnetic field computed for a Czochralski melt Masato Akamatsu, Mitsuo Higano, Hiroyuki Ozoe</p><p> 3253 -- 3264</p><p> Symmetrical impulsive thermo-fluid dynamic field along a thick plate Amilcare Pozzi, Renato Tognaccini</p><p> 3281 -- 3293</p><p> Volume (issue): 44 (16) 2001 Friction in micro-channel flows of a liquid and vapor in trapezoidal and sinusoidal grooves Jeong-Se Suh, Ralph Greif, Costas P. Grigoropoulos</p><p> 3103 -- 3109</p><p> Heat transfer bibliography - Japanese works 1998 K. Suzuki, S. Nishio</p><p> 2997 -- 3015<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Movement of impingement heat transfer by a single circular jet with a confined wall Ichimiya, Shoichi Takema, Shunichi Morimoto, Tomoaki Kunugi, Norio Akino Koichi</p><p> 3095 -- 3102</p><p> Koichi Ichimiya, Shoichi Takema, Shunichi Morimoto, Tomoaki Kunugi, Norio Akino Natural convection inside ventilated enclosure heated by downward-facing plate: experiments and numerical simulations V. Dubovsky, G. Ziskind, S. Druckman, E. Moshka, Y. Weiss, R. Letan</p><p> 3155 -- 3168</p><p> A new estimation method of thermal diffusivity using analytical inverse solution for one-dimensional heat conduction Masanori Monde, Yuichi Mitsutake</p><p> 3169 -- 3177</p><p> Heat transfer of reciprocating helical tube fitted with full circumferential ribs S.W. Chang, L.M. Su</p><p> 3025 -- 3042</p><p> Microscale permeability predictions of porous fibrous media N.D. Ngo, K.K. Tamma</p><p> 3135 -- 3145<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> The liquid temperature in diffusion controlled vapor condensation: analysis and experimental verification Franz Peters, Arne Graßmann</p><p> 3147 -- 3153</p><p> Professor Ralph Greif on his 65th birthday</p><p> 2995 -- 2996</p><p> Magnetic control of thermal convection in electrically non-conducting or lowconducting paramagnetic fluids Jianwei Qi, Nobuko I. Wakayama, Akira Yabe</p><p> 3043 -- 3052</p><p> Non-uniform mass transfer or wall enthalpy into a compressible flow over yawed cylinder S. Roy</p><p> 3017 -- 3024</p><p> Tree-shaped insulated designs for the uniform distribution of hot water over an area W. Wechsatol, S. Lorente, A. Bejan</p><p> 3111 -- 3123<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Low-Prandtl number natural convection in volumetrically heated rectangular enclosures III. Shallow cavity, AR=0.25 Salvatore Arcidiacono, Michele Ciofalo</p><p> 3053 -- 3065</p><p> Local heat transfer and flow distribution in a three-pass industrial heat exchanger D.N. Sørensen, S.L. Hvid, M.B. Hansen, K.E. Meyer</p><p> 3179 -- 3187</p><p> Interfacial electrokinetic effects on liquid flow in microchannels Liqing Ren, Weilin Qu, Dongqing Li</p><p> 3125 -- 3134</p><p> Numerical investigation of transient buoyant flow in a room with a displacement ventilation and chilled ceiling system S.J. Rees, J.J. McGuirk, P. Haves</p><p> 3067 -- 3080</p><p> Gas-phase unsteadiness and its influence on droplet vaporization in sub- and super- 3081 -- 3093 critical environments Guang-Sheng Zhu, Rolf D. Reitz, Suresh K. Aggarwal Volume (issue): 44 (15) 2001 Equipartition of forces as a lower bound on the entropy production in heat exchange Lars Nummedal, Signe Kjelstrup</p><p> 2827 -- 2833<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Visualization of roll patterns in Rayleigh-Bénard convection of air in a rectangular shallow cavity</p><p> 2889 -- 2902</p><p> shallow cavity J.T. Lir, T.F. Lin Bubble nucleation in microchannels: statistical mechanics approach X.F. Peng, Y. Tien, D.J. Lee</p><p> 2957 -- 2964</p><p> Unsteady MHD convection flow of polar fluids past a vertical moving porous plate in a porous medium Youn J. Kim</p><p> 2791 -- 2799</p><p> A model for heat transfer in a pressurized circulating fluidized bed furnace B.V. Reddy, P. Basu</p><p> 2877 -- 2887</p><p> Effect of free stream turbulence on local mass transfer from a circular cylinder S. Sanitjai, R.J. Goldstein</p><p> 2863 -- 2875<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Establishing heat-entropy analogies for interface tracking in phase change heat transfer with fluid flow G.F. Naterer</p><p> 2903 -- 2916</p><p> Collapse of vapor locks by condensation over moving subcooled liquid K. Ramamurthi, S. Sunil Kumar</p><p> 2983 -- 2994</p><p> Thermal analysis of the laser surface transformation hardening process R. Komanduri, Z.B. Hou</p><p> 2845 -- 2862</p><p> Minimum thickness of a flowing down liquid film on a vertical surface Mohamed S. El-Genk, Hamed H. Saber</p><p> 2809 -- 2825</p><p> Solutions for the correction of temperature measurements based on beaded thermocouples A.E. Segall</p><p> 2801 -- 2808<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Isothermal surface production and regulation for high heat flux applications utilizing porous inserts K. Khanafer, K. Vafai</p><p> 2933 -- 2947</p><p> Asymptotes of maximum friction and heat transfer reductions for drag-reducing surfactant solutions Guillermo Aguilar, Kazimir Gasljevic, Eric F. Matthys</p><p> 2835 -- 2843</p><p> A multidimensional inverse radiation problem of estimating the strength of a heat source in participating media H.M. Park, D.H. Yoo</p><p> 2949 -- 2956</p><p> Effect of pressure and carbon dioxide concentration on heat transfer at high temperature in a Pressurized Circulating Fluidized Bed (PCFB) combustor Nyoman S. Winaya, Prabir Basu</p><p> 2965 -- 2971</p><p> Natural convection of water-fine particle suspension in a rectangular vessel heated and cooled from opposing vertical walls (classification of the natural convection in the case of suspension with a narrow-size distribution) Chaedong Kang, Masashi Okada, Atsushi Hattori, Kazuya Oyama</p><p> 2973 -- 2982<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Applying heat-entropy analogies with experimental study of interface tracking in phase change heat transfer G.F. Naterer</p><p> 2917 -- 2932</p><p> Volume (issue): 44 (14) 2001 Bubbling features from a single artificial cavity Masahiro Shoji, Yuto Takagi</p><p> 2763 -- 2776</p><p> Solving an inverse heat conduction problem using a non-integer identified model J.-L. Battaglia, O. Cois, L. Puigsegur, A. Oustaloup</p><p> 2671 -- 2680</p><p> Effect of slot gas injection to the flow field and coherent structure characteristics of a backstep flow Harinaldi, Toshihisa Ueda, Masahiko Mizomoto</p><p> 2711 -- 2726</p><p> On the fractal description of active nucleation site density for pool boiling S.R. Yang, Z.M. Xu, J.W. Wang, X.T. Zhao</p><p> 2783 -- 2786<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Turbulent forced convection in microtubes S.M. Ghiaasiaan, T.S. Laker</p><p> 2777 -- 2782</p><p> A hydrodynamic and thermodynamic simulation of droplet impacts on hot surfaces, Part I: theoretical model Dalton J.E. Harvie, David F. Fletcher</p><p> 2633 -- 2642</p><p> An experimental investigation of the frictional pressure drop of steam-water twophase flow in helical coils Liejin Guo, Ziping Feng, Xuejun Chen</p><p> 2601 -- 2610</p><p> A hydrodynamic and thermodynamic simulation of droplet impacts on hot surfaces, Part II: validation and applications Dalton J.E. Harvie, David F. Fletcher</p><p> 2643 -- 2659</p><p> Effect of centrifugal buoyancy on turbulent heat transfer in an orthogonally rotating square duct with transverse or angled rib turbulators Akira Murata, Sadanari Mochizuki</p><p> 2739 -- 2750<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Comments on "A fractal geometry model for evaluating permeabilities of porous preforms used in liquid composite molding" B.M. Yu</p><p> 2787 -- 2789</p><p> An investigation of a block moving back and forth on a heat plate under a slot jet Wu-Shung Fu, Ke-Nan Wang, Wen-Wang Ke</p><p> 2621 -- 2631</p><p> Time-resolved spatial distribution of scattered radiative energy in a twodimensional cylindrical medium with a large mean free path for scattering Shang-Hsuang Wu, Chih-Yang Wu</p><p> 2611 -- 2619</p><p> Numerical and laboratory experiments of sidewall heating thermohaline convection C. Sabbah, R. Pasquetti, R. Peyret, V. Levitsky, Y.D. Chashechkin</p><p> 2681 -- 2697</p><p> Paraffin/porous-graphite-matrix composite as a high and constant power thermal storage material Xavier Py, Régis Olives, Sylvain Mauran</p><p> 2727 -- 2737<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Effects of heater size and orientation on pool boiling heat transfer from microporous coated surfaces K.N. Rainey, S.M. You</p><p> 2589 -- 2599</p><p> Turbulent mixed convection flow over a backward-facing step H.I. Abu-Mulaweh, B.F. Armaly, T.S. Chen</p><p> 2661 -- 2669</p><p> Bubble growth in a uniform and spatially distributed temperature field A.J. Robinson, R.L. Judd</p><p> 2699 -- 2710</p><p> Numerical investigations of Lorentz force influenced Marangoni convection relevant to aluminum surface alloying O. Velde, R. Gritzki, R. Grundmann</p><p> 2751 -- 2762</p><p> Volume (issue): 44 (13) 2001 Laminar forced convection in a channel with a moving block Wu-Shung Fu, Wen-Wang Ke, Ke-Nan Wang</p><p> 2385 -- 2394<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Heat transfer and fluid flow in a high-intensity free-burning arc: an improved modeling approach Xi Chen, He-Ping Li</p><p> 2541 -- 2553</p><p> Study on film boiling heat transfer for water jet impinging on high temperature flat 2475 -- 2481 plate Zhen-Hua Liu, Jing Wang Pressure drop characteristics of gas-liquid two-phase flow in vertical miniature triangular channels T.S. Zhao, Q.C. Bi</p><p> 2523 -- 2534</p><p> Linear-nonequilibrium thermodynamics theory for coupled heat and mass transport Y. Demirel, S.I. Sandler</p><p> 2439 -- 2451</p><p> Autoignition of sprays in a cylindrical combustor Sang Hun Kang, Seung Wook Baek, Ji Hun Choi</p><p> 2413 -- 2422</p><p> Transient thermal conduction analysis of a rectangular plate with multiple insulated cracks by the alternating method Chih-Yi Chang, Chien-Ching Ma</p><p> 2423 -- 2437<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Interactive thermal and solutal Marangoni convection during compound semiconductor growth in a rectangular open boat K. Arafune, K. Yamamoto, A. Hirata</p><p> 2405 -- 2411</p><p> Experimental investigation of natural convective heat transfer from a round plate of complex configuration V.V. Vlassov, G.A. Dreitser</p><p> 2511 -- 2521</p><p> Analysis of flow and heat transfer in a regenerator mesh using a non-Darcy thermally non-equilibrium model K. Muralidhar, K. Suzuki</p><p> 2493 -- 2504</p><p> Effect of circumferential variation of sidewall temperature on buoyant convection in a vertical cylinder Kwang Hyo Chung, Jae Min Hyun</p><p> 2583 -- 2587</p><p> Effect of non-uniform heat flux on wall friction and convection heat transfer coefficient in a trapezoidal channel T.J. Remley, S.I. Abdel-Khalik, S.M. Jeter, S.M. Ghiaasiaan, M.F. Dowling</p><p> 2453 -- 2459<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> On the mechanism and kinetics of the transport processes in system with intensive interphase mass transfer. 4. Effect of the interface concentration B. Boyadjiev, Chr. Boyadjiev</p><p> 2505 -- 2509</p><p> A refined similarity solution for the multicomponent alloy solidification Jae Dong Chung, Joon Sik Lee, Mansoo Choi, Hoseon Yoo</p><p> 2483 -- 2492</p><p> Classification and effects of thermal wakes on heat transfer in multilouvered fins X. Zhang, D.K. Tafti</p><p> 2461 -- 2473</p><p> Soot processes in a methane-fueled furnace and their impact on radiation heat transfer to furnace walls Salah-Addin B. Al-Omari, Kazuhiko Kawajiri, Takashi Yonesawa</p><p> 2567 -- 2581</p><p> On diffusion processes in a two-phase random nonhomogeneous stratified semispace O. Chernukha</p><p> 2535 -- 2539<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Heat transfer in microtubes with viscous dissipation Gokturk Tunc, Yildiz Bayazitoglu</p><p> 2395 -- 2403</p><p> Choked flow of low density gas in a narrow parallel-plate channel with adiabatic walls W. Shi, M. Miyamoto, Y. Katoh, J. Kurima</p><p> 2555 -- 2565</p><p> Volume (issue): 44 (12) 2001 Experimental investigation on ammonia spray evaporator with triangular-pitch plain-tube bundle, Part I: tube bundle effect X. Zeng, M.-C. Chyu, Z.H. Ayub</p><p> 2299 -- 2310</p><p> Turbulent heat transfer with phase change material suspensions Sanjay K. Roy, Branko L. Avanic</p><p> 2277 -- 2285</p><p> Transient cooling of a two-phase medium of spherical shape when exposed to the rarefied cold environment Seung Wook Baek, Jae Hyun Park, Shin Jae Kang</p><p> 2345 -- 2356<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> In memoriam - Professor Taik Sik Lee (192 000 Ro</p><p> 2199 -- 2200</p><p> Computational study of turbulent natural convection in a side-heated near-cubic enclosure at a high Rayleigh number H.S. Dol, K. Hanjali</p><p> 2323 -- 2344</p><p> An efficient procedure to evaluate asymptotic limits of particles scattering efficiency and asymmetry factor Miguel Caldas, Viriato Semião</p><p> 2375 -- 2378</p><p> Model-based experimental analysis of pool boiling heat transfer with controlled wall temperature transients R. Hohl, J. Blum, M. Buchholz, T. Lüttich, H. Auracher, W. Marquardt</p><p> 2225 -- 2238</p><p> Thermodynamically consistent thermal energy equation for an adsorbent/fluid system A.M.W. Wojcik, J.C. Jansen, Th. Maschmeyer</p><p> 2379 -- 2382<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Air-Cooled Heat Exchangers and Cooling Towers, Detlev G. Kröger (Department of Mechanical Engineering, University of Stellenbosch) (1998), 875 p. Distributed by Begell House, Inc., New York Holger Martin</p><p> 2383 -- 2383</p><p> Unsteady heat and/or mass transfer from a fluid sphere in creeping flow</p><p> 2239 -- 2246</p><p> Gh. Juncu Determination of mass transfer coefficient of a cross-corrugated membrane reactor by the limiting-current technique D.W. Hall, K. Scott, R.J.J. Jachuck</p><p> 2201 -- 2207</p><p> Thermal and flow analysis of a heated electronic component R.-J. Yang, L.-M. Fu</p><p> 2261 -- 2275</p><p> Calibrating for viewing angle effect during heat transfer measurements on a curved surface T.L. Chan, S. Ashforth-Frost, K. Jambunathan</p><p> 2209 -- 2223<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Natural convection from a vertical flat plate with a surface temperature oscillation Jian Li, D.B. Ingham, I. Pop</p><p> 2311 -- 2322</p><p> Numerical simulation of mixed convection heat and mass transfer in a human inhalation test chamber S. Hyun, C. Kleinstreuer</p><p> 2247 -- 2260</p><p> Analysis of the operational characteristics and limits of a loop heat pipe with porous element in the condenser I. Muraoka, F.M. Ramos, V.V. Vlassov</p><p> 2287 -- 2297</p><p> Numerical study of high heat flux pool boiling heat transfer Ying He, Masahiro Shoji, Shigeo Maruyama</p><p> 2357 -- 2373</p><p> Volume (issue): 44 (11) 2001 Mixed convection heat transfer in the entrance region of horizontal annuli Nazrul Islam, U.N. Gaitonde, G.K. Sharma</p><p> 2107 -- 2120<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Experimental investigation on ammonia spray evaporator with triangular-pitch plain-tube bundle, Part II: evaporator performance X. Zeng, M.-C. Chyu, Z.H. Ayub</p><p> 2081 -- 2092</p><p> Initial transient behavior during close-contact melting induced by convective heating Hoseon Yoo</p><p> 2193 -- 2197</p><p> Two friendly rules for the turbulent heat transfer enhancement A. laniauskas</p><p> 2155 -- 2161</p><p> Impingement of filler droplets and weld pool dynamics during gas metal arc welding process Y. Wang, H.L. Tsai</p><p> 2067 -- 2080</p><p> On the design of two-dimensional cellular metals for combined heat dissipation and structural load capacity S. Gu, T.J. Lu, A.G. Evans</p><p> 2163 -- 2175<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Condensation heat transfer for R-22 and R-407C refrigerant-oil mixtures in a microfin tube with a U-bend Keumnam Cho, Sang-Jin Tae</p><p> 2043 -- 2051</p><p> Opposite-current flows in gas-liquid layers-III. Non-linear mass transfer M. Doichinova, Chr. Boyadjiev</p><p> 2121 -- 2125</p><p> A finite element-boundary element method for advection-diffusion problems with variable advective fields and infinite domains Brian J. Driessen, Jeffrey L. Dohner</p><p> 2183 -- 2191</p><p> Study of a laminar falling film flowing over a wavy wall column: Part I. Numerical investigation of the flow pattern and the coupled heat and mass transfer S. Negny, M. Meyer, M. Prevost</p><p> 2137 -- 2146</p><p> Survival conditions of a vapour bubble in saturated liquid flowing inside a microchannel J. 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Van Zee</p><p> 2029 -- 2042<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Recursive solution of an inverse heat transfer problem in rapid thermal processing systems H.M. Park, W.S. Jung</p><p> 2053 -- 2065</p><p> Volume (issue): 44 (10) 2001 Effect of ambient temperature on vertical turbulent buoyant water jets Asterios Pantokratoras</p><p> 1889 -- 1898</p><p> The density field of coaxial jets with large velocity ratio and large density differences M. Favre-Marinet, E.B. Camano Schettini</p><p> 1913 -- 1924</p><p> Axial interfacial area transport of vertical bubbly flows Takashi Hibiki, Mamoru Ishii, Zheng Xiao</p><p> 1869 -- 1888</p><p> Electron kinetic theory approach - one- and three-dimensional heating with pulsed laser B.S. Yilbas</p><p> 1925 -- 1936<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Flow and heat transfer regimes in inclined differentially heated cavities R. Delgado-Buscalioni, E. 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Lesnic</p><p> 1937 -- 1946</p><p> Stability of supercritical fluid flow in a single-channel natural-convection loop Vijay Chatoorgoon</p><p> 1963 -- 1972<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> A computer-aided parametric analysis of mixed convection in ducts G.J. Hwang, S.C. Tzeng, C.Y. Soong</p><p> 1857 -- 1867</p><p> A new numerical formulation for incompressible viscous free surface flow without smearing the free surface S.L. Lee, S.R. Sheu</p><p> 1837 -- 1848</p><p> Model reduction for the resolution of multidimensional inverse heat conduction problems E. Videcoq, D. Petit</p><p> 1899 -- 1911</p><p> Three-dimensional bifurcations of a two-phase Rayleigh-Benard problem in a cylinder C.W. Lan, C.H. Wang</p><p> 1823 -- 1836</p><p> Film cooling subject to bulk flow pulsations: effects of density ratio, hole length-todiameter ratio, and pulsation frequency P.M. Ligrani, C.M. Bell</p><p> 2005 -- 2009<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Natural convection heat transfer within multi-layer domes Abdelaziz Laouadi, Morad R. Atif</p><p> 1973 -- 1981</p><p> Volume (issue): 44 (9) 2001 Determination of airside heat transfer coefficient on wire-on-tube type heat exchanger Tae-Hee Lee, Jeom-Yul Yun, Jang-Seok Lee, Jong-Jin Park, Kwan-Soo Lee</p><p> 1767 -- 1776</p><p> A new model for heat transfer of fins swinging back and forth in a flow Wu-Shung Fu, Suh-Jenq Yang</p><p> 1687 -- 1697</p><p> TLCT and LDV measurements of heat transfer and fluid flow in a rotating sharp turning duct T.-M. Liou, C.-C. Chen, M.-Y. Chen</p><p> 1777 -- 1787</p><p> Photophoresis of micrometer-sized particles in the free-molecular regime Shahram Tehranian, Frank Giovane, Jürgen Blum, Yu-Lin Xu, Bo Å.S. Gustafson</p><p> 1649 -- 1657<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Direct flame impingement heating for rapid thermal materials processing G.K. Malikov, D.L. Lobanov, K.Y. Malikov, V.G. Lisienko, R. Viskanta, A.G. Fedorov</p><p> 1751 -- 1758</p><p> Numerical study of formation of longitudinal vortices in natural convection flow over horizontal and inclined surfaces Ming-Han Lin</p><p> 1759 -- 1766</p><p> A CFD based correlation for mass transfer coefficient in elbows Jianrong Wang, Siamack A. Shirazi</p><p> 1817 -- 1822</p><p> Temperature-dependent thermal lagging in ultrafast laser heating D.Y. Tzou, K.S. Chiu</p><p> 1725 -- 1734</p><p> Thermodynamic aspect of the shift of concave liquid-vapor interfacial phase equilibrium temperature and its effect on bubble formation J.T. Zhang, B.X. Wang, X.F. 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Fyrillas, C. Pozrikidis</p><p> 1789 -- 1801</p><p> Analysis of fluid flow and heat transfer interfacial conditions between a porous medium and a fluid layer B. Alazmi, K. Vafai</p><p> 1735 -- 1749</p><p> A mass transfer model for simulating volatile organic compound emissions from `wet' coating materials applied to absorptive substrates X. Yang, Q. Chen, J. Zeng, J.S. Zhang, C.Y. Shaw</p><p> 1803 -- 1815</p><p> Measurement of solute diffusivities. Part I. Analysis of coupled solute buoyancydriven convection and mass transport D.J. Maclean, T. Alboussière</p><p> 1639 -- 1648<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> On the transition from conduction to convection regime in a cubical enclosure with a partially heated wall Ramón L. Frederick, Fernando Quiroz</p><p> 1699 -- 1709</p><p> Dynamic prediction and control of heat exchangers using artificial neural networks Gerardo Díaz, Mihir Sen, K.T. Yang, Rodney L. McClain</p><p> 1671 -- 1679</p><p> Well-posedness and solution structure of dual-phase-lagging heat conduction Liqiu Wang, Mingtian Xu, Xuesheng Zhou</p><p> 1659 -- 1669</p><p> Volume (issue): 44 (8) 2001 Dynamics of evaporating drops. Part II: free oscillations Farzad Mashayek</p><p> 1527 -- 1541</p><p> Forced convective boiling of binary mixtures in annular flow. Part II: heat and mass transfer J.R., Jr. Barbosa, G.F. 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Christensen, Jacques L. Zakin Enhanced laminar-flow heat transfer at fiber-flocked surfaces</p><p> 1627 -- 1636</p><p> Kurt O. Lund, Timothy R. Knowles Numerical simulation of thermal fluid instability between two horizontal parallel plates Hongxing Yang, Zuojin Zhu, John Gilleard</p><p> 1485 -- 1493</p><p> The effect of the local inertial term on the fluid flow in channels partially filled with porous material B.A. Abu-Hijleh, M.A. Al-Nimr</p><p> 1565 -- 1572<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Phase-change phenomena in porous media - a non-local thermal equilibrium model Kendall T. Harris, A. Haji-Sheikh, A.G. Agwu Nnanna</p><p> 1619 -- 1625</p><p> Forced convective boiling of binary mixtures in annular flow. Part I: liquid phase mass transport J.R., Jr. Barbosa, G.F. Hewitt</p><p> 1465 -- 1474</p><p> Effects of buoyancy-driven convection on melting within spherical containers J.M. Khodadadi, Y. Zhang</p><p> 1605 -- 1618</p><p> Revisiting heat transfer analysis for rapid solidification of metal droplets Keh-Chin Chang, Chih-Ming Chen</p><p> 1573 -- 1583</p><p> Heat transfer studies of a porous heat sink characterized by straight circular ducts H.Y. Zhang, X.Y. Huang</p><p> 1593 -- 1603<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Non-linear convection in a porous medium with inclined temperature gradient and variable gravity effects P.N. Kaloni, Zongchun Qiao</p><p> 1585 -- 1591</p><p> A unified analysis of filling and solidification in casting with natural convection Ik-Tae Im, Woo-Seung Kim, Kwan-Soo Lee</p><p> 1507 -- 1515</p><p> Liquid Cooling of Electronic Devices by Single-Phase Convection; Frank P. Incropera Yogendra Joshi</p><p> 1637 -- 1638</p><p> Mass flow through a horizontal vent in an enclosure due to pressure and density differences Qing Tan, Yogesh Jaluria</p><p> 1543 -- 1553</p><p> Dynamics of evaporating drops. Part I: formulation and evaporation model Farzad Mashayek</p><p> 1517 -- 1526<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 44 (7) 2001 An improved data reduction method for transient liquid crystal thermography on film cooling measurements Ping-Hei Chen, Pei-Pei Ding, Di Ai</p><p> 1379 -- 1387</p><p> The selection criterion of injection temperature pair for transient liquid crystal thermography on film cooling measurements Di Ai, Pei-Pei Ding, Ping-Hei Chen</p><p> 1389 -- 1399</p><p> Determination of the quench velocity and rewetting temperature of hot surfaces. Part I: analytical solution of the micro-scale hydrodynamic model M. Ben David, Y. Zimmels, Y. Zvirin</p><p> 1323 -- 1342</p><p> Impinging jets confined by a conical wall - high Schmidt mass transfer predictions in laminar flow João M. Miranda, João B.L.M. Campos</p><p> 1269 -- 1284</p><p> Heat transfer enhancement by using metallic filament insert in channel flow S. Wang, Z.Y. Guo, Z.X. Li</p><p> 1373 -- 1378<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Determination of the quench velocity and rewetting temperature of hot surfaces. Part II: an integrated approach of hydrodynamic-thermodynamic micro- and macro-scale models M. Ben David, Y. Zimmels, Y. Zvirin</p><p> 1343 -- 1371</p><p> Non-spherical bubble collapse mechanics in binary solutions J. Cao, R.N. Christensen</p><p> 1411 -- 1423</p><p> Modeling Soret coefficient measurement experiments in porous media considering thermal and solutal convection L.B. Benano-Melly, J.-P. Caltagirone, B. Faissat, F. Montel, P. Costeseque</p><p> 1285 -- 1297</p><p> Radiation effects on mixed convection heat transfer in a vertical square duct Wei-Mon Yan, Hung-Yi Li</p><p> 1401 -- 1410</p><p> A method for multiple steady line heat sources identification in a diffusive system: application to an experimental 2D problem C. Le Niliot, F. Lefèvre</p><p> 1425 -- 1438<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Determination of heat sources and heat transfer coefficient for two-dimensional heat flow - numerical and experimental study Refahi Abou khachfe, Yvon Jarny</p><p> 1309 -- 1322</p><p> The prediction of Marangoni convection in binary liquid-liquid systems with added surfactants D. Agble, M.A. Mendes-Tatsis</p><p> 1439 -- 1449</p><p> Forced convection from aluminum foam materials in an asymmetrically heated channel Seo Young Kim, Byung Ha Kang, Jin-Ho Kim</p><p> 1451 -- 1454</p><p> Two bifurcation transitions of the floating half zone convection in a fat liquid bridge of larger Pr Z.M. Tang, W.R. Hu, N. Imaishi</p><p> 1299 -- 1307</p><p> Volume (issue): 44 (6) 2001 Macroscopic turbulence modeling for incompressible flow through undeformable porous media Marcos H.J. Pedras, Marcelo J.S. de Lemos</p><p> 1081 -- 1093<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Numerical simulation of steady and transient mass transfer to a single drop dominated by external resistance Zai-Sha Mao, Tianwen Li, Jiayong Chen</p><p> 1235 -- 1247</p><p> Isothermal and heated turbulent upflow in a vertical annular channel - Part I. Experimental measurements S. Kang, B. Patil, J.A. Zarate, R.P. Roy</p><p> 1171 -- 1184</p><p> Isothermal and heated turbulent upflow in a vertical annular channel - Part II. Numerical simulations</p><p> 1185 -- 1199</p><p> J.A. Zarate, R.P. Roy, A. Laporta Experimental study of natural convection in a square enclosure using differential interferometer N. Ramesh, S.P. Venkateshan</p><p> 1107 -- 1117</p><p> A model for the thermal conductivity of unconsolidated porous media based on capillary pressure-saturation relation [Int. J. Heat and Mass Transfer 44 (2001) 247-251] Xue-Jiao Hu, Jian-Hua Du, Shu-Ye Lei, Bu-Xuan Wang</p><p> 1267 -- 1268<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Comparison between laminar and turbulent heat transfer in a stationary square duct with transverse or angled rib turbulators Akira Murata, Sadanari Mochizuki</p><p> 1127 -- 1141</p><p> Semi-analytic solutions for freezing induced by evaporative cooling Carsie A. Hall III, Calvin Mackie</p><p> 1161 -- 1170</p><p> A numerical study of interfacial convective heat transfer coefficient in two-energy equation model for convection in porous media Fujio Kuwahara, Mitsuhiro Shirota, Akira Nakayama</p><p> 1153 -- 1159</p><p> The heat/mass transfer analogy factor, Nu/Sh, for boundary layers on turbine blade profiles E.R.G. Eckert, H. Sakamoto, T.W. Simon</p><p> 1223 -- 1233</p><p> A statistical analysis of EHD-enhanced nucleate boiling along a heated wire C.C. Pascual, S.M. Jeter, S.I. Abdel-Khalik</p><p> 1201 -- 1212<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Numerical analysis model for thermal conductivities of packed beds with high solid-to-gas conductivity ratio Shigeto Kikuchi</p><p> 1213 -- 1221</p><p> On the use of a low-Reynolds extension to the Chen-Kim (k- ) model to predict thermal exchanges in the case of an impinging plasma jet Rodolphe Bolot, Michel Imbert, Christian Coddet</p><p> 1095 -- 1106</p><p> Natural convection heat and mass transfer in vertical annuli with film evaporation and condensation Wei-Mon Yan, David Lin</p><p> 1143 -- 1151</p><p> On the mechanism and kinetics of the transport processes in systems with intensive interphase mass transfer. 3. Comparative analysis of the absorption and desorption rates Chr. Boyadjiev</p><p> 1119 -- 1125</p><p> The effect of non-absorbable gas on an absorption process for the falling film flow inside a porous medium Ru Yang, Te-Ming Jou</p><p> 1259 -- 1266<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Transitions of natural convection in a horizontal annulus Jiro Mizushima, Sachiko Hayashi, Takahiro Adachi</p><p> 1249 -- 1257</p><p> Volume (issue): 44 (5) 2001 Impingement cooling in triangular ducts using an array of side-entry wall jets Jenn-Jiang Hwang, Chung-Shen Cheng</p><p> 1053 -- 1063</p><p> Effect of thermal losses on the microscopic two-step heat conduction model M.A. Al-Nimr, S. Kiwan</p><p> 1013 -- 1018</p><p> Heat transfer measurements in transitional boundary layers R. Schook, H.C. de Lange, A.A. van Steenhoven</p><p> 1019 -- 1030</p><p> Analytical approximations of the shape factors for conductive heat flow in circular and regular polygonal cross-sections Jan A. Koodziej, Tomasz Strk</p><p> 999 -- 1012<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Forced convection in a porous medium heated by a permeable wall perpendicular to flow direction: analyses and measurements T.S. Zhao, Y.J. Song</p><p> 1031 -- 1037</p><p> A comparison of two methods used to evaluate thermal conductivity for some soils N.H. Abu-Hamdeh, A.I. Khdair, R.C. Reeder</p><p> 1073 -- 1078</p><p> Fluid flow, heat transfer and solidification in the mold of continuous casters during ladle change X.K. Lan, J.M. Khodadadi</p><p> 953 -- 965</p><p> Monte Carlo simulation of a nephelometric experiment J.G. Marakis, G. Brenner, F. Durst</p><p> 989 -- 998</p><p> Optimal work flux in sequential systems with complex heat exchange Stanislaw Sieniutycz</p><p> 897 -- 918<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Enhancing heat transfer in parallel-plate channels by using porous inserts M.K. Alkam, M.A. Al-Nimr, M.O. Hamdan</p><p> 931 -- 938</p><p> Fluctuating characteristics and rotation induced stabilization of thermal buoyancy driven water flow in a vertical rotating cylinder C.P. Yin, Y.T. Ker, T.H. Huang, T.F. Lin</p><p> 919 -- 930</p><p> Invariance relations for laminar forced convection in ducts with slowly varying crosssection Helmut Brod</p><p> 977 -- 987</p><p> Effect of electromagnetic fields on transfer processes in heterogeneous systems V.V. Levdansky, H.Y. Kim, H.C. Kim, J. Smolik, P. Moravec</p><p> 1065 -- 1071</p><p> Heat and moisture transfer with sorption and condensation in porous clothing assemblies and numerical simulation [International Journal of Heat and Mass Transfer 43 (2000) 2989-3000] Jintu Fan, Zhongxuan Luo, Yi Li</p><p> 1079 -- 1079<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Limit value of the Nusselt number for particles of different shape Antje Wadewitz, Eckehard Specht</p><p> 967 -- 975</p><p> An experimental investigation of film cooling on a convex surface subjected to favourable pressure gradient flow E. Lutum, J. von Wolfersdorf, K. Semmler, J. Dittmar, B. Weigand</p><p> 939 -- 951</p><p> Thermal-hydraulic performance of small scale micro-channel and porous-media heat-exchangers Pei-Xue Jiang, Ming-Hong Fan, Guang-Shu Si, Ze-Pei Ren</p><p> 1039 -- 1051</p><p> Volume (issue): 44 (4) 2001 Buoyant convection of a two-layer liquid system in a cavity: effects of property variations Angel M. Bethancourt L, Kunio Kuwahara, Jae Min Hyun</p><p> 885 -- 889</p><p> The effect of g-jitter on free convection near a stagnation point in a porous medium D.A.S. Rees, I. Pop</p><p> 877 -- 883<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Transient cooling effect by wall mass injection after backstep in high temperature flow field Jing-Tang Yang, Jing-Der Gu, Wan-June Ma</p><p> 843 -- 855</p><p> Initial solidification in liquid metal film flow over a moving boundary H.B. Löfgren, H.O. Åkerstedt</p><p> 837 -- 842</p><p> A near-wall two-equation heat transfer model for wall turbulent flows Baoqing Deng, Wenquan Wu, Shitong Xi</p><p> 691 -- 698</p><p> Lateral freezing of an anisotropic porous medium saturated with an aqueous salt solution M. Song, R. Viskanta</p><p> 733 -- 751</p><p> On the effective thermal conductivity of a three-dimensionally structured fluidsaturated metal foam K. Boomsma, D. Poulikakos</p><p> 827 -- 836<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Aerosol particle transport in a natural convection flow onto a vertical flat plate R. Tsai</p><p> 867 -- 870</p><p> Bubble departure from cavities Brian K. Mori, W. Douglas Baines</p><p> 771 -- 783</p><p> Buoyant convection in a side-heated cavity under gravity and oscillations Ki Hyun Kim, Jae Min Hyun, Ho Sang Kwak</p><p> 857 -- 861</p><p> Evaporation of water by free convection in a vertical channel including effects of wall radiative properties C. Debbissi, J. Orfi, S. Ben Nasrallah</p><p> 811 -- 826</p><p> Finite-wall effect on buoyant convection in an enclosure with pulsating exterior surface temperature Kwang Hyo Chung, Ho Sang Kwak, Jae Min Hyun</p><p> 721 -- 732<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Characterization of energy transport by mass diffusion including an application to elliptic channel flow G. Evans, R. Greif</p><p> 753 -- 761</p><p> Regularities of unsteady radiative-conductive heat transfer in evaporating semitransparent liquid droplets G. Miliauskas</p><p> 785 -- 798</p><p> A new model for the effective thermal conductivity of packed beds of solid spheroids: alumina in helium between 100 and 500°C [International Journal of Heat and Mass Transfer 43 (2000) 2059-2073] A.J. Slavin, F.A. Londry, J. Harrison</p><p> 891 -- 891</p><p> Spatial extrema of advected scalars G.D. McBain</p><p> 863 -- 865</p><p> Vortex flow patterns near critical state for onset of convection in air flow through a bottom heated horizontal flat duct J.T. Lir, M.Y. Chang, Tsing-Fa Lin</p><p> 705 -- 719<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Law of the wall for two-phase turbulent boundary layers A.A. Troshko, Y.A. Hassan</p><p> 871 -- 875</p><p> Similarity simulation for Marangoni convection around a vapor bubble during nucleation and growth David M. Christopher, Bu-Xuan Wang</p><p> 799 -- 810</p><p> The tree of convective heat streams: its thermal insulation function and the predicted 3/4-power relation between body heat loss and body size Adrian Bejan</p><p> 699 -- 704</p><p> Neural network analysis of fin-tube refrigerating heat exchanger with limited experimental data Arturo Pacheco-Vega, Mihir Sen, K.T. Yang, Rodney L. McClain</p><p> 763 -- 770</p><p> Volume (issue): 44 (3) 2001 Augmented longitudinal diffusion in grooved tubes for oscillatory flow Xiaofeng Ye, Masashi Shimizu</p><p> 633 -- 644<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Parametric study of metal droplet deposition and solidification process including contact resistance and undercooling effects Mo Chung, R.H. Rangel</p><p> 605 -- 618</p><p> On multiple stability of mixed-convection flows in a chemical vapor deposition reactor Helmar van Santen, Chris R. Kleijn, Harry E.A. van den Akker</p><p> 659 -- 672</p><p> Method for predicting boiling curves of saturated nucleate boiling Hiroto Sakashita, Toshiaki Kumada</p><p> 673 -- 682</p><p> A numerical simulation of the convective heat transfer in confined channel flow past square cylinders: comparison of inline and offset tandem pairs J.L. Rosales, A. Ortega, J.A.C. Humphrey</p><p> 587 -- 603</p><p> An experimental study on cool-down of a heterogeneous porous body in throughflow J.W. Paek, B.H. Kang, J.M. Hyun</p><p> 683 -- 687<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> A hybrid spatial differencing scheme for discrete ordinates method in 2D rectangular enclosures Il-Kyoung Kim, Woo-Seung Kim</p><p> 575 -- 586</p><p> The origin of thermocapillary convection in subcooled nucleate pool boiling R. Marek, J. Straub</p><p> 619 -- 632</p><p> Vertical mixing above a steady circular source of buoyancy Michael Epstein, James P. Burelbach</p><p> 525 -- 536</p><p> Enhancement of heat transfer by a combination of three-start spirally corrugated tubes with a twisted tape Ventsislav Zimparov</p><p> 551 -- 574</p><p> Sublimation and vaporization of an ice aerosol particle in the form of thin cylinder by laser radiation. [International Journal of Heat and Mass Transfer 43 (2000) 27932806]</p><p> 689 -- 689<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2806] A.N. Kucherov Low-Prandtl number natural convection in volumetrically heated rectangular enclosures. II. Square cavity, AR=1 Salvatore Arcidiacono, Ivan Di Piazza, Michele Ciofalo</p><p> 537 -- 550</p><p> Laser-based thermal pulse measurement of liquid thermophysical properties J. Sun, J.P. Longtin, T.F., Jr Irvine</p><p> 645 -- 657</p><p> Volume (issue): 44 (2) 2000 Natural convection from a confined horizontal cylinder: the optimum distance between the confining walls M. Sadegh Sadeghipour, Yazdan Pedram Razi</p><p> 367 -- 374</p><p> Mixed convection in an unequally heated loop: steady solutions Min-Joon Kim, Yong-Bum Lee, Yong-Kyun Kim, Byoung-Hae Choi, Ho-Yun Nam</p><p> 389 -- 397</p><p> Effects of initial molten pool and Marangoni flow on solid melting X.F. Peng, X.P. Lin, D.J. Lee, Y. Yan, B.X. Wang</p><p> 457 -- 470<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> A study of bubble dynamics in reduced gravity forced-convection boiling Yue Ma, J.N. Chung</p><p> 399 -- 415</p><p> Melting in a side heated tall enclosure by a uniformly dissipating heat source Debabrata Pal, Yogendra K. Joshi</p><p> 375 -- 387</p><p> Solutions of the extended Graetz problem A. Silva Telles, E.M. Queiroz, G. Elmôr Filho</p><p> 471 -- 483</p><p> Heat transfer enhancement with impinging free surface liquid jets flowing over heated wall coated by a ferrofluid Y.C. Chen, C.F. Ma, Z.X. Yuan, Z.Z. Xia, Z.Y. Guo</p><p> 499 -- 502</p><p> Heat transfer: a review of 1998 literature 253 -- 366 R.J. Goldstein, E.R.G. Eckert, W.E. Ibele, S.V. Patankar, T.W. Simon, T.H. Kuehn, P.J. Strykowski, K.K. Tamma, A. Bar-Cohen, J.V.R. Heberlein, J.H. Davidson, J. Bischof, F.A. Kulacki, U. Kortshagen, S. Garrick Boiling heat transfer on machined porous surfaces with structural optimization Y.Y. Jiang, W.C. Wang, D. Wang, B.X. Wang</p><p> 443 -- 456<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Heat transfer and fluid flow in a partially or fully penetrated weld pool in gas tungsten arc welding H.G. Fan, H.L. Tsai, S.J. Na</p><p> 417 -- 428</p><p> Effect of transverse magnetic field on a flat plate thermometer [International Journal of Heat and Mass Transfer 43 (2000) 3253-3257] Ashok K. Singh, Pallath Chandran, Nirmal C. Sacheti</p><p> 503 -- 503</p><p> Temperature profile in countercurrent/cocurrent spray towers N. Makkinejad</p><p> 429 -- 442</p><p> The effect of surfactants on bubble growth, wall thermal patterns and heat transfer in pool boiling G. Hetsroni, J.L. Zakin, Z. Lin, A. Mosyak, E.A. Pancallo, R. Rozenblit</p><p> 485 -- 497</p><p> Volume (issue): 44 (1) 2001 Transient two-phase flow in arbitrary inclined tubes caused by depressurization of liquid with dissolved gases S. Richter, S. Fleischer, M. Aritomi, R. Hampel</p><p> 1 -- 15<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Numerical investigation of bubble growth and detachment by the lattice-Boltzmann method Z.L. Yang, T.N. Dinh, R.R. Nourgaliev, B.R. Sehgal</p><p> 195 -- 206</p><p> Turbulent film boiling on a horizontal cylinder P.K. Sarma, T. Subrahmanyam, V.D. Rao, A.E. Bergles</p><p> 207 -- 214</p><p> Application of narrow and wide band models for radiative transfer in planar media J.G. Marakis</p><p> 131 -- 142</p><p> Inverse radiation problem of sources and emissivities in one-dimensional semitransparent media L.H. Liu, H.P. Tan, Q.Z. Yu Numerical simulation of the stability of steadily cooled flowing layer K.M. Moon, T.H. Song A method of control of transfer processes P. Furmanski, J.M. Floryan Heat transfer induced by a body moving in opposition to a flowing fluid Wu-Shung Fu, Suh-Jenq Yang</p><p> 63 -- 72</p><p> 99 -- 110 215 -- 233 89 -- 98</p><p> Extended performance evaluation criteria for enhanced heat transfer surfaces: heat transfer through ducts with constant heat flux Ventsislav Zimparov<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 169 -- 180</p><p> The Karhunen-Loève Galerkin method for the inverse natural convection problems H.M. Park, W.S. Jung</p><p> 155 -- 167</p><p> Comparison of CHF measurements in R-134a cooled tubes and the water CHF look-up table I.L. Pioro, D.C. Groeneveld, S.C. Cheng, S. Doerffer, A.. Vasi, Yu. V. Antoshko Porosity formation in axi-symmetric castings produced by counter-pressure casting method I.H. Katzarov, Y.B. Arsov, P. Stoyanov, T. Zeuner, A. Buehrig-Polaczek, P.R. Sahm</p><p> 73 -- 88</p><p> 111 -- 119</p><p> Radiant heat transfer between grey surfaces: an alternative approach G.E. Cossali</p><p> 29 -- 37</p><p> Analysis of the evaporation coefficient and the condensation coefficient of water R. Marek, J. Straub</p><p> 39 -- 53<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Effect of the aspect ratio of rectangular channels on the heat transfer and hydrodynamics of paraffin slurry flow Mingoo Choi, Keumnam Cho</p><p> 55 -- 61</p><p> Boiling of methanol and HFE-7100 on heated surface covered with a layer of mesh J.W. Liu, D.J. Lee, A. Su Nucleate pool boiling on structured enhanced tubes having pores with connecting gaps Nae-Hyun Kim, Kuk-Kwang Choi</p><p> 241 -- 246 17 -- 28</p><p> Interactions between laser-activated nucleation sites in pool boiling Iztok Golobi, Henrik Gjerke</p><p> 143 -- 153</p><p> Surface wetting effects on the spreading of liquid droplets impacting a solid surface at low Weber numbers W.M. Healy, J.G. Hartley, S.I. Abdel-Khalik</p><p> 235 -- 240</p><p> A model for the thermal conductivity of unconsolidated porous media based on capillary pressure-saturation relation Xue-Jiao Hu, Jian-Hua Du, Shu-Ye Lei, Bu-Xuan Wang</p><p> 247 -- 251<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Transitional droplet growth and diffusion coefficients P. Peeters, C.C.M. Luijten, M.E.H. van Dongen</p><p> 181 -- 193</p><p> The single-blow transient testing technique considering longitudinal core conduction and fluid dispersion Xing Luo, Wilfried Roetzel, Ulrich Lüdersen</p><p> 121 -- 129</p><p> Volume (issue): 43 (24) 2000 An exact solution for surface temperature in down grinding Adrienne S. Lavine</p><p> 4447 -- 4456</p><p> Gap conductance in contact heat transfer Syed M.S. Wahid, C.V. Madhusudana</p><p> 4483 -- 4487</p><p> Thermocapillary flow in an annular liquid layer painted on a moving fiber W.R. Hu, N. Imaishi</p><p> 4457 -- 4466<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Heat exchanger design effect on the system performance of silica gel adsorption refrigeration systems K.C.A. Alam, B.B. Saha, Y.T. Kang, A. Akisawa, T. Kashiwagi</p><p> 4419 -- 4431</p><p> An experimental study of the airside performance of the superslit fin-and-tube heat exchangers Yuan-Jan Du, Chi-Chuan Wang</p><p> 4475 -- 4482</p><p> Flow and impingement cooling heat transfer along triangular rib-roughened walls C. Gau, I.C. Lee</p><p> 4405 -- 4418</p><p> Efficient finite-difference scheme for solving some heat transfer problems with convection in multilayer media H. Kalis</p><p> 4467 -- 4474</p><p> Une méthode caractérisant l’influence réciproque entre parois: application aux échanges thermiques dans une cavité rotor–stator S. Raguenet, E. Laroche</p><p> 4433 -- 4445<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Fire resistance test for fire protection materials with high water content Zhao-Fen Jin, Yutaka Asako, Yoshiyuki Yamaguchi, Minoru Harada</p><p> 4395 -- 4404</p><p> Interaction between the Ekman layer and the Couette-Taylor instability V. Sobolík, B. Izrar, F. Lusseyran, S. Skali</p><p> 4381 -- 4393</p><p> Natural convection heat transfer in horizontal eccentric elliptic annuli containing saturated porous media J.P.B. Mota, I.A.A.C. Esteves, C.A.M. Portugal, J.M.S.S. Esperança, E. Saatdjian</p><p> 4367 -- 4379</p><p> Volume (issue): 43 (23) 2000 Thermal conductivity of suspensions in shear flow fields Sehyun Shin, Sung-Hyuk Lee</p><p> 4275 -- 4284</p><p> Transient response of multipass plate heat exchangers with axial thermal dispersion in fluid Sarit Kumar Das, K. Murugesan</p><p> 4327 -- 4345<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Three-dimensional numerical simulation of rotating spoke pattern in an oxide melt under a magnetic field C.J. Jing, N. Imaishi, S. Yasuhiro, T. Sato, Y. Miyazawa</p><p> 4347 -- 4359</p><p> Heat transfer optimization in corrugated wall channels Giampietro Fabbri</p><p> 4299 -- 4310</p><p> A numerical study on three-dimensional conjugate heat transfer of natural convection and conduction in a differentially heated cubic enclosure with a heatgenerating cubic conducting body Man Yeong Ha, Mi Jung Jung</p><p> 4229 -- 4248</p><p> Nucleation site interaction during boiling L.H. Chai, X.F. Peng, B.X. Wang</p><p> 4249 -- 4258</p><p> Buoyancy effects on heat transfer and temperature profiles in horizontal pipe flow of drag-reducing fluids K. Gasljevic, G. Aguilar, E.F. Matthys</p><p> 4267 -- 4274<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Cluster dynamics and fictitious boiling in microchannels X.F. Peng, D. Liu, D.J. Lee, Y. Yan, B.X. Wang</p><p> 4259 -- 4265</p><p> Analyse des effets de variation de volume des gaz dans les équations générales de bilan Claude Rey</p><p> 4311 -- 4326</p><p> Simultaneous estimation of the profiles of the temperature and the scattering albedo in an absorbing, emitting, and isotropically scattering medium by inverse analysis Huai-Chun Zhou, Ping Yuan, Feng Sheng, Chu-Guang Zheng</p><p> 4361 -- 4364</p><p> Cylindrical trees of pin fins M. Almogbel, A. Bejan</p><p> 4285 -- 4297</p><p> On the effect of thermocapillarity for falling liquid film flow with consideration of humidity condition J.T. Zhang, B.X. Wang, X.F. Peng</p><p> 4365 -- 4366<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> High temperature contact conductance measurement across cylindrical joint by the periodic method: feasibility and first results P. Benigni, C. Marchionni, J. Rogez</p><p> 4217 -- 4227</p><p> Volume (issue): 43 (22) 2000 A non-equilibrium phenomenological theory of the mass and heat transfer in physical and chemical interactions. Part II - modeling of the NH3/H2O bubble absorption, analytical study of absorption and experiments M.D. Staicovici</p><p> 4175 -- 4188</p><p> Effect of surface roughness on pool boiling heat transfer</p><p> 4073 -- 4085</p><p> Myeong-Gie Kang Reaction-diffusion model of surface and grain boundary segregation kinetics T. Gambaryan-Roisman, E. Litovsky, M. Shapiro, A. Shavit</p><p> 4135 -- 4151</p><p> Effects of heterogeneity in forced convection in a porous medium: parallel plate channel or circular duct D.A. Nield, A.V. Kuznetsov</p><p> 4119 -- 4134<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> A two-dimensional inverse problem in imaging the thermal conductivity of a nonhomogeneous medium Cheng-Hung Huang, Sheng-Chieh Chin</p><p> 4061 -- 4071</p><p> Thermodynamic analysis of thermomechanical coupling in Couette flow Y. Demirel</p><p> 4205 -- 4212</p><p> Development of the miniaturized four-sensor conductivity probe and the signal processing scheme S. Kim, X.Y. Fu, X. Wang, M. Ishii</p><p> 4101 -- 4118</p><p> A non-equilibrium phenomenological theory of the mass and heat transfer in physical and chemical interactions. Part I - application to NH3/H2O and other working systems M.D. Staicovici</p><p> 4153 -- 4173</p><p> Buoyancy-driven flow and heat transfer in open-ended enclosures: elimination of the extended boundaries K. Khanafer, K. Vafai</p><p> 4087 -- 4100<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Rationalisation of second law analysis of heat exchangers J.E. Hesselgreaves</p><p> 4189 -- 4204</p><p> Volume (issue): 43 (21) 2000 Effect of a thin layer on the measurement of the thermal diffusivity of a material by a flash method D. Maillet, C. Moyne, B. Rémy</p><p> 4057 -- 4060</p><p> The inverse estimation of the thermal boundary behavior of a heated cylinder normal to a laminar air stream Jiin-Hong Lin, Cha'o-Kuang Chen, Yue-Tzu Yang</p><p> 3991 -- 4001</p><p> Stochastic convective heat transfer equations in finite differences method Maksym Grzywiski, Andrzej Sualec</p><p> 4003 -- 4008</p><p> Analytical method in inverse heat transfer problem using laplace transform technique Masanori Monde</p><p> 3965 -- 3975<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Integral transform solutions of transient natural convection in enclosures with variable fluid properties M.A. Leal, H.A. Machado, R.M. Cotta</p><p> 3977 -- 3990</p><p> Laminar conjugated forced convection heat transfer in curved rectangular channels T.W. Gyves, T.F., Jr. Irvine</p><p> 3953 -- 3964</p><p> Turbulent film condensation of high pressure steam in a vertical tube Sang Jae Kim, Hee Cheon No</p><p> 4031 -- 4042</p><p> Sang Jae Kim, Hee Cheon No Heat-transfer enhancement and pressure loss by surface roughness in turbulent channel flows Kenji Katoh, Kwing-So Choi, Tsuneo Azuma</p><p> 4009 -- 4017</p><p> Effective conductivity computation of a packed bed using constriction resistance and contact angle effects W.W.M. Siu, S.H.-K. Lee</p><p> 3917 -- 3924<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Thermal transients in a capillary evaporator prior to the initiation of boiling Tim J. LaClair, Issam Mudawar</p><p> 3937 -- 3952</p><p> High Schmidt mass transfer in a laminar impinging slot jet flow Mingyong Chen, Radek Chalupa, Alan C. West, Vijay Modi</p><p> 3907 -- 3915</p><p> Investigation of a spectral formulation for radiative heat transfer in onedimensional fires and combustion systems Siaka Dembele, Jennifer X. Wen</p><p> 4019 -- 4030</p><p> Heat transfer for water flow in trapezoidal silicon microchannels Weilin Qu, Gh. Mohiuddin Mala, Dongqing Li</p><p> 3925 -- 3936</p><p> A first incursion into the 3D structure of natural convection of air in a differentially 4043 -- 4056 heated cubic cavity, from accurate numerical solutions E. Tric, G. Labrosse, M. Betrouni Volume (issue): 43 (20) 2000 Limiting angular dependencies of heat transfer and stratification in a heatgenerating fluid L.A. Bolshov, P.S. Kondratenko</p><p> 3897 -- 3905<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Design and control of interfacial temperature gradients in solidification S.W. Hale, M. Keyhani, J.I. Frankel</p><p> 3795 -- 3810</p><p> Simulation of vertical slot convection using `one-dimensional turbulence' Thomas D. Dreeben, Alan R. Kerstein</p><p> 3823 -- 3834</p><p> Thermal dispersion in porous media: one-equation model C. Moyne, S. Didierjean, H.P. Amaral Souto, O.T. da Silveira</p><p> 3853 -- 3867</p><p> Axisymmetric transient solutions of the heat diffusion problem in layered composite media M.F. Abdul Azeez, A.F. Vakakis</p><p> 3883 -- 3895</p><p> Simulation of coupled turbulent flow and heat transfer in the wedge-shaped pool of a twin-roll strip casting process Woo-Seung Kim, Deok-Soo Kim, A.V. Kuznetsov</p><p> 3811 -- 3822<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Thermal modeling of selective area laser deposition of titanium nitride on a finite slab with stationary and moving laser beams Yuwen Zhang, A. Faghri</p><p> 3835 -- 3846</p><p> Forced convection in thermally developing turbulent flow of drag-reducing fluids within circular tubes E.N. Macêdo, C.E. Maneschy, J.N.N. Quaresma</p><p> 3785 -- 3794</p><p> A study of multiple heat sources on a flat plate heat pipe using a point source approach B.K. Tan, X.Y. Huang, T.N. Wong, K.T. Ooi</p><p> 3755 -- 3764</p><p> Chemical deposition of substance from gas phase in nonisothermal channels H.Y. Kim, H.C. Kim, V.V. Levdansky, V.G.. Leitsina, J. Smolik</p><p> 3877 -- 3882</p><p> Accurate approximate equations for intensive sub-sonic evaporation John W. Rose</p><p> 3869 -- 3875<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Thermoconvective instability in a bounded vertical cylinder with internal heat generation K.F. Wu, J.P. Brancher</p><p> 3775 -- 3784</p><p> Heatline and massline visualization of laminar natural convection boundary layers near a vertical wall V.A.F. Costa</p><p> 3765 -- 3774</p><p> Experimental investigation on the hydrodynamics of falling liquid film flow by nonlinear description procedure J.T. Zhang, X.F. Peng, G.P. Peterson</p><p> 3847 -- 3852</p><p> Volume (issue): 43 (19) 2000 Fully developed combined convection in a seven-rod horizontal bundle S.C. Haldar</p><p> 3735 -- 3742</p><p> Fouling in enhanced tubes using cooling tower water. Part II: combined particulate and precipitation fouling Wei Li, Ralph L. Webb</p><p> 3579 -- 3588<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Closed-form analytical solutions for radially rotating miniature high-temperature heat pipes including non-condensable gas effects Jian Ling, Yiding Cao</p><p> 3661 -- 3671</p><p> Oscillatory enclosed buoyant convection of a fluid with the density maximum Chang Ho Lee, Jae Min Hyun, Ho Sang Kwak</p><p> 3747 -- 3751</p><p> The effect of bed diameter on near-wall hydrodynamics in scale-model circulating fluidized beds Peter D. Noymer, Matthew R. Hyre, Leon R. Glicksman</p><p> 3641 -- 3649</p><p> Fouling in enhanced tubes using cooling tower water. Part I: long-term fouling data 3567 -- 3578 Ralph L. Webb, Wei Li An analytical solution to coupled heat and moisture diffusion transfer in porous materials Win-Jin Chang, Cheng-I Weng</p><p> 3621 -- 3632</p><p> Free surface profiles and thermal convection in electrostatically levitated droplets S.P. Song, B.Q. Li</p><p> 3589 -- 3606<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Conceptions for heat transfer correlation of nanofluids Yimin Xuan, Wilfried Roetzel</p><p> 3701 -- 3707</p><p> Thermal conductance of randomly oriented composites of thin layers Xin-Gang Liang, Xu Ji</p><p> 3633 -- 3640</p><p> Evaporation heat transfer of R-32, R-134a, R-32/134a, and R-32/125/134a inside a horizontal smooth tube T.Y. Choi, Y.J. Kim, M.S. Kim, S.T. Ro</p><p> 3651 -- 3660</p><p> The collapse of vapor bubbles in a spatially non-uniform flow Y. Hao, A. Prosperetti</p><p> 3539 -- 3550</p><p> Combined forced and free flow of a power-law fluid in a vertical annular duct A. Barletta</p><p> 3673 -- 3686<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Active control of laminar stability by feedback control strategy X.Y. You, Xia Xiao</p><p> 3529 -- 3538</p><p> Transient heat conduction in one-dimensional composite slab. A `natural' analytic approach F. de Monte</p><p> 3607 -- 3619</p><p> The near wall mixing length formulation revisited J. Grifoll, Francesc Giralt</p><p> 3743 -- 3746</p><p> An experimental investigation of the thermal performance of an asymmetrical flat plate heat pipe. [International Journal of Heat and Mass Transfer 43 (2000) 26572668] Y. Wang, K. Vafai</p><p> 3753 -- 3753</p><p> Statistical modelling of mass transfer in turbulent two-phase dispersed flows - 1. Model development I.V. Derevich</p><p> 3709 -- 3723<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Statistical modelling of mass transfer in turbulent two-phase dispersed flows - 2. Calculation results I.V. Derevich</p><p> 3725 -- 3734</p><p> Experimental and numerical characterisation of mixing in a steady spatially chaotic flow by means of residence time distribution measurements C. Castelain, D. Berger, P. Legentilhomme, A. Mokrani, H. Peerhossaini</p><p> 3687 -- 3700</p><p> Mechanisms for the heat transfer enhancement in zero-mean oscillatory flows in short channels P. Li, K.T. Yang</p><p> 3551 -- 3566</p><p> Analysis of momentum and energy transfer in a lid-driven cavity filled with a porous medium Abdalla M. Al-Amiri</p><p> 3513 -- 3527</p><p> Volume (issue): 43 (18) 2000 Thermally controlled bubble collapse in binary solutions T.L. Merrill</p><p> 3287 -- 3298<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Enhancement of CHF in open thermosyphon with heated bottom chamber M. Monde, Y. Mitsutake</p><p> 3341 -- 3346</p><p> Heat and momentum transfer for compact louvered fin-and-tube heat exchangers in wet conditions Chi-Chuan Wang, Yur-Tsai Lin, Chi-Juan Lee</p><p> 3443 -- 3452</p><p> Radiative transfer in arbitrarily-shaped axisymmetric enclosures with anisotropic scattering media</p><p> 3275 -- 3285</p><p> scattering media Edmundo M. Nunes, Vijay Modi, Mohammad H.N. Naraghi On the laminar free convection and instability of grade fluids in enclosures Dennis A. Siginer, A. Valenzuela-Rendón</p><p> 3391 -- 3405</p><p> Diffusion within a porous medium with randomly distributed heat sinks Vladimir V. Kulish, José L. Lage</p><p> 3481 -- 3496<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> The effect of nozzle configuration on stagnation region heat transfer enhancement of axisymmetric jet impingement Jungho Lee, Sang-Joon Lee</p><p> 3497 -- 3509</p><p> Study on bubble dynamics for pool nucleate [International Journal of Heat and Mass Transfer 43 (2000) 203-208] Chunxin Yang, Yuting Wu, Xiugan Yuan, Chongfang Ma</p><p> 3511 -- 3511</p><p> Investigation of randomness, overlap and the interaction of bubbles forming at adjacent nucleation sites in pool boiling Robert Mallozzi, Ross Leonard Judd, Narayanaswamy Balakrishnan</p><p> 3317 -- 3330</p><p> Uncertainties in parameter estimation: the optimal experiment design A.F. Emery, Aleksey V. Nenarokomov, Tushar D. Fadale</p><p> 3331 -- 3339</p><p> Dynamic programming approach to a Fermat type principle for heat flow Stanislaw Sieniutycz</p><p> 3453 -- 3468<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Flow boiling heat transfer of Freon R11 and HCFC123 in narrow passages Z.Y. Bao, D.F. Fletcher, B.S. Haynes</p><p> 3347 -- 3358</p><p> An analytical study of laminar counterflow double-pass heat exchangers with external refluxes Chii-Dong Ho</p><p> 3263 -- 3274</p><p> Nucleate and convective boiling in plate fin heat exchangers A. Feldman, C. Marvillet, M. Lebouché</p><p> 3433 -- 3442</p><p> Effect of porous media transparency on spherical and cylindrical filtrational combustion heaters performance S.A. Zhdanok, K.V. Dobrego, S.I. Futko</p><p> 3469 -- 3480</p><p> Volumetric heat transfer coefficients in solid-fluid porous media: closure problem, thermal analysis and model improvement with fluid flow H.Y. Zhang, X.Y. Huang</p><p> 3417 -- 3432<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Experimental study of unsteady thermal convection in heated rotating inclined cylinders David Lin, Wei-Mon Yan</p><p> 3359 -- 3370</p><p> Thermal and water storage characteristics of super-absorbent polymer gel which absorbed aqueous solution of calcium chloride Zhao-Fen Jin, Yutaka Asako, Yoshiyuki Yamaguchi, Hirohisa Yoshida</p><p> 3407 -- 3415</p><p> Unsteady heat transfer in the harmonic heating of a dilute suspension of small particles C.F.M. Coimbra, R.H. Rangel</p><p> 3305 -- 3316</p><p> Measurement of soot optical properties in the near-infrared spectrum Jinyu Zhu, Mun Young Choi, George W. Mulholland, Louis A Gritzo</p><p> 3299 -- 3303</p><p> Jinyu Zhu, Mun Young Choi, George W. Mulholland, Louis A Gritzo Prediction of critical heat flux for subcooled flow boiling W. Liu, H. Nariai, F. Inasaka</p><p> 3371 -- 3390<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 43 (17) 2000 Thermal characteristics of paraffin in a spherical capsule during freezing and melting processes Keumnam Cho, S.H. Choi</p><p> 3183 -- 3196</p><p> The effect of a surfactant monolayer on the temperature field of a water surface undergoing evaporation J.R. Saylor, G.B. Smith, K.A. Flack</p><p> 3073 -- 3086</p><p> Low-Prandtl number natural convection in volumetrically heated rectangular enclosures. I. Slender cavity, AR = 4 Ivan Di Piazza, Michele Ciofalo</p><p> 3027 -- 3051</p><p> Large eddy simulation of indoor airflow with a filtered dynamic subgrid scale model Wei Zhang, Qingyan Chen</p><p> 3219 -- 3231</p><p> Direct simulation of weak laminar plane fountains in a homogeneous fluid Wenxian Lin, S.W. Armfield</p><p> 3013 -- 3026<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Heat transfer of a U-bend in a cross flow of air at different angles of incidence Lei Fang, Daniel K. Harris, Victor W. Goldschmidt</p><p> 3053 -- 3059</p><p> Heat transfer over a continuously moving plate embedded in non-Darcian porous medium E.M.A. Elbashbeshy, M.A.A. Bazid</p><p> 3087 -- 3092</p><p> Analytical determination of the temperature distribution and Nusselt numbers in rectangular ducts with constant axial heat flux. [International Journal of Heat and Mass Transfer 43 (2000) 741-755] Gian Luca Morini</p><p> 3259 -- 3261</p><p> A three-dimensional inverse forced convection problem in estimating surface heat flux by conjugate gradient method Cheng-Hung Huang, Wei-Chung Chen</p><p> 3171 -- 3181</p><p> Mixed convection in film condensation from isothermal vertical surfaces - the entire regime C.M. Winkler, T.S. Chen</p><p> 3245 -- 3251<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Effect of transverse magnetic field on a flat plate thermometer Ashok K. Singh, Pallath Chandran, Nirmal C. Sacheti</p><p> 3253 -- 3257</p><p> Transient measurements of the heat transfer coefficient in unsteady, turbulent pipe flow Adam R. Barker, John E. Ffowcs Williams</p><p> 3197 -- 3207</p><p> Unsteady heat and mass transfer on the codeposition of SiO2/GeO2 during the modified chemical vapor deposition process K.S. Park, M. Choi, J.D. Chung</p><p> 3209 -- 3217</p><p> Application of the statistical narrow-band correlated-k method to low-resolution spectral intensity and radiative heat transfer calculations - effects of the quadrature scheme</p><p> 3119 -- 3135</p><p> spectral intensity and radiative heat transfer calculations - effects of the quadrature scheme Fengshan Liu, Gregory J. Smallwood, Ömer L. Gülder Forced convection from a rotationally oscillating cylinder placed in a uniform stream F.M. Mahfouz, H.M. Badr</p><p> 3093 -- 3104<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Extended performance evaluation criteria for enhanced heat transfer surfaces: heat transfer through ducts with constant wall temperature Ventsislav Zimparov</p><p> 3137 -- 3155</p><p> Convective trees of fluid channels for volumetric cooling Adrian Bejan, Marcelo R. Errera</p><p> 3105 -- 3118</p><p> Multicellular natural convection in a high aspect ratio cavity: experimental and numerical results Bérengère Lartigue, Sylvie Lorente, Bernard Bourret</p><p> 3157 -- 3170</p><p> Non-intrusive measurements of near-wall fluid flow and surface heat transfer in a serpentine passage T.-M. Liou, C.-C. Chen, Y.-Y. Tzeng, T.-W. Tsai</p><p> 3233 -- 3244</p><p> Thermal analysis of the volume absorber in pulsed excimer laser calorimeters D.H. Chen, Z.M. Zhang</p><p> 3061 -- 3072<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 43 (16) 2000 Evaporation heat transfer and pressure drop of R-22 in 7 and 9.52 mm smooth/micro-fin tubes K. Seo, Y. Kim</p><p> 2869 -- 2882</p><p> A parametric study of radiative heat transfer in pulverised coal furnaces J.G. Marakis, C. Papapavlou, E. Kakaras</p><p> 2961 -- 2971</p><p> Boundary information based diagnostics on the thermal states of biological bodies Jing Liu, Lisa X. Xu</p><p> 2827 -- 2839</p><p> An analytical model for transport from quasi-steady and periodic accelerations on spacecraft Robert J. Naumann</p><p> 2917 -- 2930</p><p> Impact, recoil and splashing of molten metal droplets Shiraz D. Aziz, Sanjeev Chandra</p><p> 2841 -- 2857<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Periodic forced convection with axial heat conduction in a circular duct A. Barletta, E. Rossi di Schio</p><p> 2949 -- 2960</p><p> Heat and moisture transfer with sorption and condensation in porous clothing assemblies and numerical simulation Jintu Fan, Zhongxuan Luo, Yi Li</p><p> 2989 -- 3000</p><p> Heat-transfer analysis and thermal dispersion in thermally-developing region of a sintered porous metal channel W.H. Hsieh, S.F. Lu</p><p> 3001 -- 3011</p><p> A lumped parameter model of the operating limits of one-well geothermal plant with down hole heatClaudio exchangers Alberto Carotenuto, Casarosa</p><p> 2931 -- 2948</p><p> Alberto Carotenuto, Claudio Casarosa Heat and mass transfer modeling during the formation and ascension of superheated bubbles F.B. Campos, P.L.C. Lage</p><p> 2883 -- 2894<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Laminar film condensation along a vertical fin F. Méndez, J.J. Lizardi, C. Treviño</p><p> 2859 -- 2868</p><p> A modified form of the - model for turbulent flows of an incompressible fluid in porous media D. Getachew, W.J. Minkowycz, J.L. Lage</p><p> 2909 -- 2915</p><p> Film cooling on a convex surface with zero pressure gradient flow E. Lutum, J. von Wolfersdorf, B. Weigand, K. Semmler</p><p> 2973 -- 2987</p><p> The onset of vortex instability in laminar natural convection flow over an inclined plate embedded in a porous medium D.H. Lee, D.Y. Yoon, C.K. Choi</p><p> 2895 -- 2908</p><p> Volume (issue): 43 (15) 2000 An experimental investigation of the thermal performance of an asymmetrical flat plate heat pipe Y. Wang, K. Vafai</p><p> 2657 -- 2668<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Heat transfer from a 2D backward facing step with isotropic porous floor segments Bassam A/K Abu-Hijleh</p><p> 2727 -- 2737</p><p> Sublimation and vaporization of an ice aerosol particle in the form of thin cylinder by laser radiation A.N. Kucherov</p><p> 2793 -- 2806</p><p> On the mechanism and kinetics of the transport processes in systems with intensive interphase mass transfer. 1.. Heat and mass transfer Chr. Boyadjiev</p><p> 2749 -- 2757</p><p> Opposite-current flows in gas-liquid boundary layers - II. Mass transfer kinetics M. Doichinova, Chr. Boyadjiev</p><p> 2707 -- 2710</p><p> The conjugate conduction-natural convection heat transfer along a thin vertical plate with non-uniform internal heat generation F Méndez, C Treviño</p><p> 2739 -- 2748<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Heat transfer and friction characteristics of plain fin-and-tube heat exchangers, part I: new experimental data Chi-Chuan Wang, Kuan-Yu Chi</p><p> 2681 -- 2691</p><p> On the mechanism and kinetics of the transport processes in systems with intensive interphase mass transfer. 2.. Stability Chr. Boyadjiev</p><p> 2759 -- 2766</p><p> Heat transfer and friction characteristics of plain fin-and-tube heat exchangers, part II: Correlation Chi-Chuan Wang, Kuan-Yu Chi, Chun-Jung Chang</p><p> 2693 -- 2700</p><p> Slip-flow heat transfer in circular tubes Francisco Ezquerra Larrodé, Christos Housiadas, Yannis Drossinos</p><p> 2669 -- 2680</p><p> One-group interfacial area transport of bubbly flows in vertical round tubes T. Hibiki, M. Ishii</p><p> 2711 -- 2726<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Measuring interfacial waves on film flowing down a vertical plate wall in the entry region using laser focus displacement meters Tomoji Takamasa, Tatsuya Hazuku</p><p> 2807 -- 2819</p><p> Exact formulations and nearly exact numerical solutions for convection in turbulent flow between parallel plates Stanislav N. Danov, Norio Arai, Stuart W. Churchill</p><p> 2767 -- 2777</p><p> Comments on "Process intensification: heat and mass transfer characteristics of liquid films on rotating discs", A. Aoune and C. Ramshaw. [International Journal of Heat and Mass Transfer 42 (1998) 2543-2556] Jarosaw Mikielewicz</p><p> 2821 -- 2822</p><p> Reply to Prof. Mikielewicz C. Ramshaw</p><p> 2822 -- 2823</p><p> Opposite-current flows in gas-liquid boundary layers - I. Velocity distribution Chr. Boyadjiev, M. Doichinova</p><p> 2701 -- 2706<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Transient characterization of flat plate heat pipes during startup and shutdown operations Y. Wang, K. Vafai</p><p> 2641 -- 2655</p><p> Heat and mass transfer during drying of granular products - simulation with convective and conductive boundary conditions A. Mhimid, S. Ben Nasrallah, J.P. Fohr</p><p> 2779 -- 2791</p><p> Volume (issue): 43 (14) 2000 Heat transfer - a review of 1997 literature 2431 -- 2528 E.R.G. Eckert, R.J. Goldstein, W.E. Ibele, S.V. Patankar, T.W. Simon, T.H. Kuehn, P.J. Strykowski, K.K. Tamma, A. Bar-Cohen, J.V.R. Heberlein, J.H. Davidson, J. Bischof, F.A. Kulacki, U. Kortshagen, S. Garrick Condensation of R134a flowing inside helicoidal pipe H.J. Kang, C.X. Lin, M.A. Ebadian</p><p> 2553 -- 2564</p><p> Heat transfer coefficient at the metal-mould interface in the unidirectional solidification of Cu-8%Sn alloys M.A. Martorano, J.D.T. Capocchi</p><p> 2541 -- 2552</p><p> Influence of design parameters on the heat transfer and flow friction characteristics of the heat exchanger with slit fins Jeom-Yul Yun, Kwan-Soo Lee</p><p> 2529 -- 2539<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Vertical free convection in a porous medium with variable permeability effects D.A.S. Rees, I. Pop</p><p> 2565 -- 2571</p><p> Critical heat flux (CHF) for water flow in tubes-I. Compilation and assessment of world CHF data David D. Hall, Issam Mudawar</p><p> 2573 -- 2604</p><p> Critical heat flux (CHF) for water flow in tubes-II.. Subcooled CHF correlations David D. Hall, Issam Mudawar</p><p> 2605 -- 2640</p><p> Volume (issue): 43 (13) 2000 An experimental study of gas-liquid flow in a narrow conduit Z.Y. Bao, D.F. Fletcher, B.S. Haynes</p><p> 2313 -- 2324</p><p> The combined Monte-Carlo and finite-volume method for radiation in a twodimensional irregular geometry Seung Wook Baek, Do Young Byun, Shin Jae Kang</p><p> 2337 -- 2344<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Non-Darcy mixed convection in a vertical channel filled with a porous medium Y.C. Chen, J.N. Chung, C.S. Wu, Y.F. Lue</p><p> 2421 -- 2429</p><p> Improvement of one-equation boundary-layer integral method for pool film-boiling heat transfer from a downward-facing surface K. Kamiuto, Djati Walujastono</p><p> 2415 -- 2419</p><p> Direct and large-eddy simulation of the transition of two- and three-dimensional plane plumes in a confined enclosure Rob J.M. Bastiaans, C.C.M. Rindt, F.T.M. Nieuwstadt, A.A. van Steenhoven</p><p> 2375 -- 2393</p><p> Influence of imposed oscillatory frequency on mass transfer enhancement of grooved channels for pulsatile flow Tatsuo Nishimura, Naoki Oka, Yoshimichi Yoshinaka, Koji Kunitsugu</p><p> 2365 -- 2374</p><p> Analysis of forced convection in pipes and channels with the simplified PhanThien-Tanner fluid F.T. Pinho, P.J. Oliveira</p><p> 2273 -- 2287<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Flow and heat transfer characteristics of a two-dimensional oblique wall attaching offset jet Heung Bok Song, Soon Hyun Yoon, Dae Hee Lee</p><p> 2395 -- 2404</p><p> Natural convection from a discrete heat source on the bottom of a horizontal enclosure I. Sezai, A.A. Mohamad</p><p> 2257 -- 2266</p><p> Contribution to flow characterisation through porous media António F. Miguel</p><p> 2267 -- 2272</p><p> Random heat flow with phase change Andrzej Sualec</p><p> 2303 -- 2312</p><p> Radiant and convective heat transfer on pneumatic transport of particles: an analytical study Sávio Leandro Bertoli</p><p> 2345 -- 2363<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Heat transfer by radiation from a hot particle to ambient water through the vapor layer Leonid A. Dombrovsky</p><p> 2405 -- 2414</p><p> Buoyant convection in a vertical cylinder with azimuthally-varying sidewall temperature Kwang Hyo Chung, Jae Min Hyun, Hiroyuki Ozoe</p><p> 2289 -- 2301</p><p> Thermal management of high power electronics with phase change cooling T.J. Lu</p><p> 2245 -- 2256</p><p> Radiative heat transfer in inhomogeneous, nongray, and anisotropically scattering media</p><p> 2325 -- 2336</p><p> Zhixiong Guo, Shigenao Maruyama Volume (issue): 43 (12) 2000 A new model for the effective thermal conductivity of packed beds of solid spheroids: alumina in helium between 100 and 500°C Alan J. Slavin, Frank A. Londry, Joy Harrison</p><p> 2059 -- 2073<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Numerical modeling of microwave induced natural convection Qiong Zhang, Tom H. Jackson, Aydin Ungan</p><p> 2141 -- 2154</p><p> Mass diffusion in a spherical microporous particle with thermal effect and gas-side mass transfer resistance Cheng-Chin Ni, Jung-Yang San</p><p> 2129 -- 2139</p><p> Entropy generation for natural convection in an inclined porous cavity A.C. Bayta</p><p> 2089 -- 2099</p><p> Influence of heat conduction in the wall on nucleate boiling heat transfer M. Mann, K. Stephan, P. Stephan</p><p> 2193 -- 2203</p><p> Constructal T-shaped fins Adrian Bejan, Majed Almogbel</p><p> 2101 -- 2115<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Evaporation from an open cylinder G.D. McBain, H. Suehrcke, J.A. Harris</p><p> 2117 -- 2128</p><p> Combustion modeling of turbulent jet diffusion H2/air flame with detailed chemistry X. Zhou, Z. Sun, G. Brenner, F. Durst</p><p> 2075 -- 2088</p><p> Pool boiling of pure R134a from a single Turbo-BII-HP tube R.A. Tatara, Parviz Payvar</p><p> 2233 -- 2236</p><p> Numerical simulation of non-linear heat conduction subjected to a laser source: the effects of variable thermal properties Gustavo Gutierrez, Tien-Chen Jen</p><p> 2177 -- 2192</p><p> An experimental identification of line heat sources in a diffusive system using the boundary element method C. Le Niliot, F. Rigollet, D. Petit</p><p> 2205 -- 2220<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Thermocapillary effect on drying of a polymer solution under non-uniform radiant heating Jyh-Jian Chen, Jenn-Der Lin</p><p> 2155 -- 2175</p><p> The well-posedness of incompressible one-dimensional two-fluid model Jin Ho Song, M. Ishii</p><p> 2221 -- 2231</p><p> A generalized friction correlation for louver fin geometry Yu-Juei Chang, Kuei-Chang Hsu, Yur-Tsai Lin, Chi-Chuan Wang</p><p> 2237 -- 2243</p><p> Volume (issue): 43 (11) 2000 The thermal behavior of thin metal films in the hyperbolic two-step model M.A. Al-Nimr, V.S. Arpaci</p><p> 2021 -- 2028</p><p> An empirical correlation for electrohydrodynamic enhancement of natural convection</p><p> 1965 -- 1974<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> convection C.C. Pascual, J.H. Stromberger, S.M. Jeter, S.I. Abdel-Khalik Integral equation formulation for transient radiative transfer in an anisotropically scattering medium Chih-Yang Wu, Shang-Hsuang Wu</p><p> 2009 -- 2020</p><p> Modelling of turbulent scalar transport in homogeneous turbulence Hiroshi Kawamura, Yoshitsune Kurihara</p><p> 1935 -- 1945</p><p> Pool boiling CHF on a laser heated thin plate Henrik Gjerke, Iztok Golobi</p><p> 1999 -- 2008</p><p> Effects of axial vibration on vertical zone-melting processing C.W. Lan</p><p> 1987 -- 1997</p><p> Engineering procedure for calculating the transfer of the selective radiation of molecular gases E.I. Vitkin, S.L. Shuralyov, V.V. Tamanovich</p><p> 2029 -- 2045<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Modelling droplet size distributions in polydispersed wet-steam flows A.J. White, M.J. Hounslow</p><p> 1873 -- 1884</p><p> Characteristics of liquid-wall contact in post-CHF flow boiling Asuman F. Cokmez-Tuzla, Kemal Tuzla, John C. Chen</p><p> 1925 -- 1934</p><p> Thermophysical properties of monolithic carbon Z. Tamainot-Telto, R.E. Critoph</p><p> 2053 -- 2058</p><p> The influence of gravity levels on the horizontal Bridgman crystal growth of an alloy James E. Simpson, Suresh V. Garimella</p><p> 1905 -- 1923</p><p> Slot jet impingement heat transfer from circular cylinders C.S. McDaniel, B.W. Webb</p><p> 1975 -- 1985<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> A model of microsegregation during binary alloy solidification V.R. Voller</p><p> 2047 -- 2052</p><p> Subcooled flow boiling heat transfer of R-134a and bubble characteristics in a horizontal annular duct Chih-Ping Yin, Yi-Yie Yan, Tsing-Fa Lin, Bing-Chwen Yang</p><p> 1885 -- 1896</p><p> Parametric study of mixed convection in channels with concave and convex surfaces F. Moukalled, A. Doughan, S. Acharya</p><p> 1947 -- 1963</p><p> Experimental study on the dryout heat flux of falling liquid film B.X. Wang, J.T. Zhang, X.F. Peng</p><p> 1897 -- 1903</p><p> Volume (issue): 43 (10) 2000 An airside correlation for plain fin-and-tube heat exchangers in wet conditions Chi-Chuan Wang, Yur-Tsai Lin, Chi-Juan Lee</p><p> 1869 -- 1872<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Experimental verification of the role of Brinkman number in microchannels using local parameters C.P. Tso, S.P. Mahulikar</p><p> 1837 -- 1849</p><p> Convergence and accuracy of Adomian's decomposition method for the solution of Lorenz equations Peter Vadasz, Shmuel Olek</p><p> 1715 -- 1734</p><p> Optimization of a horizontal MOCVD reactor for uniform epitaxial layer growth W.K. Cho, D.H. Choi</p><p> 1851 -- 1858</p><p> Mass transport in a partially covered fluid-filled cavity C.H. Driesen, J.G.M. Kuerten, H.K. Kuiken</p><p> 1823 -- 1835</p><p> General solutions for stationary/moving plane heat source problems in manufacturing and tribology Z.B. Hou, R. Komanduri</p><p> 1679 -- 1698<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Experimental balances for the second moments for a buoyant plume and their implication on turbulence modeling Aamir Shabbir, Dale B. Taulbee</p><p> 1777 -- 1790</p><p> Radiative heat transfer in natural gas-fired furnaces E.P. Keramida, H.H. Liakos, M.A. Founti, A.G. Boudouvis, N.C. Markatos</p><p> 1801 -- 1809</p><p> Solution of the inverse radiation problem using a conjugate gradient method H.M. Park, T.Y. Yoon</p><p> 1767 -- 1776</p><p> An extension of the weighted sum of gray gases non-gray gas radiation model to a two phase mixture of non-gray gas with particles Myoung Jong Yu, Seung Wook Baek, Jae Hyun Park</p><p> 1699 -- 1713</p><p> Study on laminar film-wise condensation for vapor flow in an inclined small/minidiameter tube Bu-Xuan Wang, Xiao-Ze Du</p><p> 1859 -- 1868<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Measurements of impinging jet flow and heat transfer on a semi-circular concave surface Mansoo Choi, Han Seoung Yoo, Geunyoung Yang, Joon Sik Lee, Dong Kee Sohn</p><p> 1811 -- 1822</p><p> Turbulent heat transfer in liquid iron during electron beam evaporation Ch. Karcher, R. Schaller, Th. Boeck, Ch. Metzner, A. Thess</p><p> 1759 -- 1766</p><p> The evaporation of water into air of different humidities and the inversion temperature phenomenon J.P. Schwartze, S. Bröcker</p><p> 1791 -- 1800</p><p> Limiting behavior of turbulent scalar transport close to a wall Y. Na, T.J. Hanratty</p><p> 1749 -- 1758</p><p> On the local thermal equilibrium in microchannel heat sinks S.J. Kim, D. Kim, D.Y. Lee</p><p> 1735 -- 1748<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 43 (9) 2000 The effect of concentration gradient on the melting of a horizontal ice plate from above M. Sugawara, Thomas F. Irvine</p><p> 1591 -- 1601</p><p> Thermal radiation from nonisothermal spherical particles of a semitransparent material Leonid A. Dombrovsky</p><p> 1661 -- 1672</p><p> Mixed convection in radial flow between horizontal plates - I. Numerical simulations Helmar Van Santen, Chris R. Kleijn, Harry E. A. Van Den Akker</p><p> 1523 -- 1535</p><p> Mixed convection of micropolar fluids in a cavity Tsan-Hui Hsu, Sheng-Gwo Wang</p><p> 1563 -- 1572</p><p> Mixed convection in radial flow between horizontal plates-II. Experiments Helmar Van Santen, Chris R. Kleijn, Harry E. A. Van Den Akker</p><p> 1537 -- 1546<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Thermophoretic separation of ultrafine particles in ferrofluids in thermal diffusion column under the effect of an MHD convection E. Blums, S. Odenbach</p><p> 1637 -- 1649</p><p> Evolution of liquid/solid contact area of a drop impinging on a solid surface Hitoshi Fujimoto, Hiroaki Shiraishi, Natsuo Hatta</p><p> 1673 -- 1677</p><p> Convective stability of a particle-laden fluid system in the presence of solidification Calvin Mackie</p><p> 1617 -- 1627</p><p> Computation of heat transfer in rotating two-pass square channels by a secondmoment closure model Hamn-Ching Chen, Yong-Jun Jang, Je-Chin Han</p><p> 1603 -- 1616</p><p> Entrainment and desposition rates of droplets in annular two-phase flow I. Kataoka, M. Ishii, A. 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Chung</p><p> 1547 -- 1562</p><p> Heat transfer and friction characteristics of fin-and-tube heat exchangers Wei-Mon Yan, Pay-Jen Sheen</p><p> 1651 -- 1659</p><p> Onset of double-diffusive convection in a rectangular porous cavity subject to mixed boundary conditions A. Mahidjiba, M. Mamou, P. Vasseur</p><p> 1505 -- 1522</p><p> Metastable pin fin boiling W.W. Lin, J.C. Yang, D.J. Lee</p><p> 1629 -- 1635</p><p> Volume (issue): 43 (8) 2000 Analytical solutions to the unsteady close-contact melting on a flat plate Hoseon Yoo</p><p> 1457 -- 1467<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Buoyant heat transfer in a rotating cup-like cavity Won Nyun Kim, Ho Sang Kwak, Jae Min Hyun</p><p> 1449 -- 1456</p><p> A nonlinear low-Reynolds number heat transfer model for turbulent separated and reattaching flows Gwang Hoon Rhee, Hyung Jin Sung</p><p> 1439 -- 1448</p><p> A finite element free convection model for the side wall heated cavity K.A.R. 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Myrum</p><p> 1479 -- 1492</p><p> Prediction of heat and mass transfer for fully developed turbulent fluid flow through tubes S. Aravinth</p><p> 1399 -- 1408</p><p> Condensation on the outside surface of a small/mini diameter tube for vapor flowing through a horizontal annulus surround by an adiabatic concentric tube Bu-Xuan Wang, Xiao-Ze Du</p><p> 1391 -- 1398</p><p> Transient, three-dimensional heat transfer model for the laser assisted machining of silicon nitride: II. Assessment of parametric effects Jay C. Rozzi, Frank P. Incropera, Yung C. Shin</p><p> 1425 -- 1437</p><p> Heat transfer - a review of 1996 literature 1273 -- 1371 E.R.G. Eckert, R.J. Goldstein, W.E. Ibele, T.W. Simon, T.H. Kuehn, P.J. Strykowski, K.K. Tamma, A. Bar-Cohen, J.V.R. Heberlein, J.H. Davidson, J. Bischof, F. Kulacki, U. Kortshagen Volume (issue): 43 (7) 2000 Coupling of conduction and convection past an impulsively started semi-infinite flat 1121 -- 1131 plate Amilcare Pozzi, Renato Tognaccini Modelling of an electric IR heater at transient and steady state conditions. Part I: model and validation Magnus Pettersson, Stig Stenström</p><p> 1209 -- 1222<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Modelling of an electric IR heater at transient and steady state conditions. Part II: modelling a paper dryer Magnus Pettersson, Stig Stenström</p><p> 1223 -- 1232</p><p> A new angular discretization scheme of the finite volume method for 3-D radiative heat transfer in absorbing, emitting and anisotropically scattering media Seung Hyun Kim, Kang Y. Huh</p><p> 1233 -- 1242</p><p> Phasewise numerical integration of finite element method applied to solidification processes N. Nigro, A. Huespe, V. Fachinotti</p><p> 1053 -- 1066</p><p> A visual study of phase-change heat transfer in a two-dimensional porous structure with a partial heating boundary Q. Liao, T.S. Zhao</p><p> 1089 -- 1102</p><p> Some experimental investigations on the concentration variance and its dissipation rate in a grid generated turbulent flow F. Lemoine, Y. Antoine, M. Wolff, M. Lebouche</p><p> 1187 -- 1199<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Acoustic wave prediction in flowing steam-water two-phase mixture Jinliang Xu, Tingkuan Chen</p><p> 1079 -- 1088</p><p> Large eddy simulation with a dynamic subgrid-scale model of turbulent heat transfer in an orthogonally rotating rectangular duct with transverse rib turbulators</p><p> 1243 -- 1259</p><p> transfer in an orthogonally rotating rectangular duct with transverse rib turbulators Akira Murata, Sadanari Mochizuki Determination of the temperature dependent thermophysical properties from temperature responses measured at medium's boundaries Ching-yu Yang</p><p> 1261 -- 1270</p><p> Combined laminar forced convection and thermal radiation in a helical pipe B. Zheng, C.X. Lin, M.A. Ebadian</p><p> 1067 -- 1078</p><p> Relative stability of subcooled flow boiling on non-uniformly heated, inclined flat surface W.W. Lin, J.C. Yang, D.J. Lee</p><p> 1201 -- 1207<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> On capillary-driven flow and phase-change heat transfer in a porous structure heated by a finned surface: measurements and modeling T.S. Zhao, Q. Liao</p><p> 1141 -- 1155</p><p> Effects of nozzle-inlet chamfering on pressure drop and heat transfer in confined air jet impingement Luis A. Brignoni, Suresh V. Garimella</p><p> 1133 -- 1139</p><p> Experimental investigation of laminar mixed convection in an inclined semicircular duct under buoyancy assisted and opposed conditions A.A. Busedra, H.M. Soliman</p><p> 1103 -- 1111</p><p> Laminar free convection from a vertical plate in partly dissociated gases D.M. Fontana, M. Corcione, A. Lo Monaco, L. Santarpia</p><p> 1113 -- 1120</p><p> Transient supercritical droplet evaporation with emphasis on the effects of equation of state G.S. Zhu, S.K. Aggarwal</p><p> 1157 -- 1171<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Suspension-to-membrane-wall heat transfer in a circulating fluidized bed combustor W. Luan, B.D. Bowen, C.J. Lim, C.M.H. Brereton, J.R. Grace</p><p> 1173 -- 1185</p><p> Volume (issue): 43 (6) 2000 The effect of hydrodynamic conditions on heat transfer in a complex viscoplastic flow field Khaled J. Hammad</p><p> 945 -- 962</p><p> Low turbulence natural convection in an air filled square cavity. Part II: the turbulence quantities Y.S. Tian, T.G. Karayiannis</p><p> 867 -- 884</p><p> Low turbulence natural convection in an air filled square cavity. Part I: the thermal and fluid flow fields Y.S. Tian, T.G. Karayiannis</p><p> 849 -- 866</p><p> Ray effect mitigation in jet fire radiation modelling P.S. Cumber</p><p> 935 -- 943<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Flow transition in a multilouvered fin array D.K. Tafti, G. Wang, W. Lin</p><p> 901 -- 919</p><p> The heating, by viscous dissipation, of liquids flowing across an enclosed rotating disc C.M. Ellwood, W.J. Korchinsky Heat transfer analysis of a diffusion flame leading edge near a cold, chemically inert surface Robert Vance, Indrek S. Wichman</p><p> 1035 -- 1050</p><p> 921 -- 933</p><p> The effect of surfactants on interfacial mass transfer in binary liquid-liquid systems 1025 -- 1034 D. Agble, M.A. Mendes-Tatsis Flow bifurcation and heat transfer in a spherical gap W.-J. Luo, R.-J. Yang Temperature decay in two-phase turbulent flows F.A. Jaberi, F. Mashayek A computational study of transient plane front solidification of alloys in a Bridgman apparatus under microgravity conditions V. Timchenko, P.Y.P. Chen, E. Leonardi, G. de Vahl Davis, R. Abbaschian Combined evaporating meniscus-driven convection and radiation in annular microchannels for electronics cooling application C.P. Tso, S.P. Mahulikar Radiative characteristics of fibers with a large size parameter Jun Yamada, Yasuo Kurosaki</p><p> 885 -- 899 993 -- 1005 963 -- 980</p><p> 1007 -- 1023</p><p> 981 -- 991</p><p> Volume (issue): 43 (5) 2000 Evaporative cooling of continuously drawn glass fibers by water sprays Matthew Sweetland, John H. Lienhard V<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 777 -- 790</p><p> Crystal ice formation of solution and its removal phenomena at cooled horizontal solid surface. Part II: onset of ice removal condition Tetsuo Hirata, Mitsutoshi Kato, Koji Nagasaka, Masaaki Ishikawa</p><p> 757 -- 765</p><p> `Wall-adjacent layer' analysis for developed-flow laminar heat transfer of gases in microchannels Jun-Ming Li, Bu-Xuan Wang, Xiao-Feng Peng</p><p> 839 -- 847</p><p> Influence of the characteristics of a aerodynamically perturbated flow on the local heat transfer by convection from a wall Fredáric Boizumault, Souad Harmand, Bernard Desmet</p><p> 791 -- 806</p><p> Subcritical transitions to chaos and hysteresis in a fluid layer heated from below Peter Vadasz</p><p> 705 -- 724</p><p> Natural convection around horizontal downward-facing plate with rectangular grooves: experiments and numerical simulations C.E. Kwak, T.H. Song<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 825 -- 838</p><p> The effect of free-floating dendrites and convection on macrosegregation in direct chill cast aluminum alloys. Part I: model development Christopher J. Vreeman, Matthew John M. Krane, Frank P. Incropera</p><p> 677 -- 686</p><p> The effect of free-floating dendrites and convection on macrosegregation in direct chill cast aluminum alloys. Part II: predictions for Al-Cu and Al-Mg alloys</p><p> 687 -- 704</p><p> Christopher J. Vreeman, Frank P. Incropera Mass transfer within the gas-phase of porous media W. Kast, C.-R. Hohenthanner</p><p> 807 -- 823</p><p> Revisiting the Reynolds-averaged energy equation in near-wall turbulence models Keh-Chin Chang, Ming-Juin Shyu</p><p> 665 -- 676</p><p> Effect of interface thermal resistance on heat transfer in a composite medium using the thermal wave model Whey-Bin Lor, Hsin-Sen Chu<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 653 -- 663</p><p> Forced convection with slug flow and viscous dissipation in a rectangular duct A. Barletta, B. Pulvirenti</p><p> 725 -- 740</p><p> Analytical determination of the temperature distribution and Nusselt numbers in rectangular ducts with constant axial heat flux Gian Luca Morini</p><p> 741 -- 755</p><p> Optimum shape and dimensions of ducts for convective heat transfer in laminar flow at constant wall temperature Alper Yilmaz, Orhan Büyükalaca, Tuncay Yilmaz</p><p> 767 -- 775</p><p> Volume (issue): 43 (4) 2000 Trapping of impurity molecules in condensation from mixtures of gases V.V. Levdansky, J. Smolik, P. Moravec</p><p> 629 -- 637</p><p> Linear stability of mixed convection flows in horizontal rectangular channels of finite transversal extension heated from below X. Nicolas, J.-M. Luijkx, J.-K. Platten<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 589 -- 610</p><p> Free convection near a stagnation point in a porous medium resulting from an oscillatory wall temperature J.H. Merkin, I. Pop</p><p> 611 -- 621</p><p> Surface temperature of a flat plate of finite thickness under conjugate laminar forced convection heat transfer condition Kikuji Chida</p><p> 639 -- 642</p><p> Effective thermal conductivity of frost during the crystal growth period Ahmet Z. ahin</p><p> 539 -- 553</p><p> Conduction through a grooved surface and Sierpinsky fractals A.R. Kacimov, Yu.V. Obnosov</p><p> 623 -- 628</p><p> Conductive mass transport from a semi-infinite lattice of particles C. Pozrikidis<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 493 -- 504</p><p> Experimental results of the time to the onset of ice formation at metal surface and a correlation based on a sub-layer reactor model Xiao Dong Chen, Ping Chen, Kevin W. Free</p><p> 643 -- 652</p><p> Effects of phonon pore scattering and pore randomness on effective conductivity of porous silicon Jae Dong Chung, Massoud Kaviany</p><p> 521 -- 538</p><p> Lattice Boltzmann scheme for cooling of packed cut flowers R.G.M. van der Sman, M.H. Ernst, A.C. Berkenbosch</p><p> 577 -- 587</p><p> R.G.M. van der Sman, M.H. Ernst, A.C. Berkenbosch An experimental study of heat transfer from a cylinder in low-amplitude zero-mean oscillatory flows Ashok Gopinath, Donald R. Harder</p><p> 505 -- 520</p><p> The effect of nozzle aspect ratio on stagnation region heat transfer characteristics of elliptic impinging jet Jungho Lee, Sang-Joon Lee<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 555 -- 575</p><p> Volume (issue): 43 (3) 1999 Flow and heat transfer characteristics of backward-facing step laminar flow in a rectangular duct Hiroshi Iwai, Kazuyoshi Nakabe, Kenjiro Suzuki</p><p> 457 -- 471</p><p> The effects of duct inclination angle on laminar mixed convective flows over a backward-facing step Hiroshi Iwai, Kazuyoshi Nakabe, Kenjiro Suzuki, Koji Matsubara</p><p> 473 -- 485</p><p> Solution structure of hyperbolic heat-conduction equation Liqiu Wang</p><p> 365 -- 373</p><p> Three-dimensional conjugate heat transfer in the microchannel heat sink for electronic packaging Andrei G. Fedorov, Raymond Viskanta</p><p> 399 -- 415</p><p> Natural convection heat transfer around horizontal tube in vertical slot Wojciech T. Konka<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 447 -- 455</p><p> Double-pass heat or mass transfer through a parallel-plate channel with recycle Ho-Ming Yeh, Chii-Dong Ho, Wen-Song Sheu</p><p> 487 -- 491</p><p> An experimental study of the flow stabilization in a channel with a swirled periphery jet E.P. Volchkov, V.P. Lebedev, V.I. Terekhov, N.E. Shishkin</p><p> 375 -- 386</p><p> Asymptotic evolution of a passive scalar field advected by an homogeneous turbulent shear flow M. Gonzalez</p><p> 387 -- 397</p><p> Heat transfer enhancement of finned oval tubes with staggered punched longitudinal vortex generators Y. Chen, M. Fiebig, N.K. Mitra</p><p> 417 -- 435</p><p> Pressure-driven water flows in trapezoidal silicon microchannels Qu Weilin, Gh. Mohiuddin Mala, Li Dongqing<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 353 -- 364</p><p> Numerical analysis of solutal convection in rotating shallow electrochemical cells F.-B. Weng, Y. Kamotani, S. Ostrach</p><p> 341 -- 351</p><p> Crystal ice formation of solution and its removal phenomena at cooled horizontal solid surface. Part I: ice removal phenomena Tetsuo Hirata, Koji Nagasaka, Masaaki Ishikawa</p><p> 333 -- 339</p><p> Estimate of the diffusion coefficient in Co based liquids C. Allibert, Ph Marty, A. Gagnoud, Y. Fautrelle</p><p> 437 -- 445</p><p> Volume (issue): 43 (2) 1999 Asymptotic analysis of radiation extinction of stretched premixed flames Yiguang Ju, Goro Masuya, Fengshan Liu, Yuji Hattori, Dirk Riechelmann</p><p> 231 -- 239</p><p> Temperature response in absorbing, isotropic scattering medium caused by laser pulse Heping Tan, Liming Ruan, Timothy W. Tong<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 311 -- 320</p><p> Study on bubble dynamics for pool nucleate boiling Chunxin Yang, Yuting Wu, Xiugan Yuan, Chongfang Ma</p><p> 203 -- 208</p><p> A numerical study on the transient heat transfer from a sphere at high Reynolds and Peclet numbers Zhi-Gang Feng, Efstathios E. Michaelides</p><p> 219 -- 229</p><p> Shape of a pore trapped in solid during solidification P.S. Wei, Y.K. Kuo, S.H. Chiu, C.Y. Ho</p><p> 263 -- 280</p><p> Simultaneous heat and mass transfer during the ascension of superheated bubbles F.B. Campos, P.L.C. Lage</p><p> 179 -- 189</p><p> On the effective heat transfer parameters in a packed bed Y. Demirel, R.N. Sharma, H.H. Al-Ali<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 327 -- 332</p><p> A dry-spot model of critical heat flux applicable to both pool boiling and subcooled forced convection boiling Sang Jun Ha, Hee Cheon No</p><p> 241 -- 250</p><p> Transient vertical mixing by natural convection in a wide layer Michael Epstein, J.P. Burelbach</p><p> 321 -- 325</p><p> Convective instability in a time-dependent buoyancy driven boundary layer A.M.H. Brooker, J.C. Patterson, T. Graham, W. Schöpf</p><p> 297 -- 310</p><p> Power extraction from a hot stream in the presence of phase change J.V.C. Vargas, J.C. Ordóñez, A. Bejan</p><p> 191 -- 201</p><p> Liquid cooling for a multichip module using Fluorinert liquid and paraffin slurry Mingoo Choi, Keumnam Cho<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 209 -- 218</p><p> Fluid flow and heat transfer over straight and curved rough surfaces A.B. Turner, S.E. Hubbe-Walker, F.J. Bayley</p><p> 251 -- 262</p><p> Pressure and power generation during explosive vaporization on a thin-film microheater Z. Zhao, S. Glod, D. Poulikakos</p><p> 281 -- 296</p><p> Inlet subcooling effect on heat and mass transfer characteristics in a laminar film flow Weibo Chen, Richard N. Christensen</p><p> 167 -- 177</p><p> Volume (issue): 43 (1) 1999 Effect of fin spacing on convection in a plate fin and tube heat exchanger Ricardo Romero-Méndez, Mihir Sen, K.T. Yang, Rodney McClain</p><p> 39 -- 51</p><p> The importance of turbulence modelling in the design of a novel delivery system for a single-belt steel casting process<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 21 -- 37</p><p> Pedro Gutemberg Q. Netto, Roderick I.L. Guthrie Analytical solution for the potential flow through the wall of n-sided hollow cylinders of regular polygonal cross-section Markus Nickolay, Carsten Cramer, Holger Martin</p><p> 139 -- 145</p><p> Energy transfer between an aerosol particle and gas at high temperature ratios in the Knudsen transition regime A.V. Filippov, D.E. Rosner</p><p> 127 -- 138</p><p> Heat transfer in a liquid film on an unsteady stretching surface Helge I. Andersson, Jan B. Aarseth, Bhabani S. Dandapat</p><p> 69 -- 74</p><p> Effect of disuniformities in vapor saturation pressure and coolant velocity on vapor back flow phenomena in single-pass air-cooled condensers Giampietro Fabbri</p><p> 147 -- 159</p><p> Constrained optimal duct shapes for conjugate laminar forced convection T.S. Fisher, K.E. Torrance<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 113 -- 126</p><p> Editorial No Author</p><p> 1 -- 1</p><p> Comments on a recent review of Incropera and De Witt's texts DRH Beattie</p><p> 161 -- 162</p><p> Nonlinear aspects of boiling systems and a new method for predicting the pool nucleate boiling heat transfer L.H. Chai, X.F. Peng, B.X. Wang</p><p> 75 -- 84</p><p> Plasma flow over an array of particles Alok Verma, Milind A. Jog</p><p> 101 -- 111</p><p> Response to Brian Spalding's review [1] of Incropera and DeWitt's texts, Fundamentals of Heat and Mass Transfer, 4th ed. [2], and Introduction to Heat Transfer, 3rd ed. [3] A Faghri, VK Dhir, J Jaluria<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 162 -- 163</p><p> Evaporative heat transfer from thin liquid film on a heated cylinder J. Jiang, Y.-X. Tao, L. Byrd</p><p> 85 -- 99</p><p> Conjugate forced convection and heat conduction with freezing of water content in a plate shaped food Nelson O. Moraga, Enzo E. Medina</p><p> 53 -- 67</p><p> Volume (issue): 42 (24) 1999 Author Index</p><p> XXVIII -- XXXII</p><p> Study of double-diffusive velocity during the solidification process using particle image velocimetry S.Y. Wang, C.X. Lin, M.A. Ebadian</p><p> 4427 -- 4445</p><p> Fourier analysis of conjugate gradient method applied to inverse heat conduction problems M. Prud'homme, T. Hung Nguyen<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 4447 -- 4460</p><p> Effects of leading-wall blowing/suction on mixed convective phenomena in a radially rotating multiple-pass duct</p><p> 4461 -- 4474</p><p> radially rotating multiple-pass duct Jenn-Jiang Hwang, Yeong-Pei Tsai, Wei-Jyh Wang, Dong-Yu Lai Microexplosion of aluminum slurry droplets Do Young Byun, Seung Wook Baek, Ju Hyeong Cho</p><p> 4475 -- 4486</p><p> Thermoconvective instability in a horizontal porous cavity saturated with cold water M. Mamou, L. Robillard, P. Vasseur</p><p> 4487 -- 4500</p><p> A 3-D version of TransPore: a comprehensive heat and mass transfer computational model for simulating the drying of porous media Patrick Perré, Ian W. Turner</p><p> 4501 -- 4521</p><p> Laminar natural convection heat and mass transfer in vertical rectangular ducts Kuan-Tzong Lee<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 4523 -- 4534</p><p> Modelling of scattering and absorption coefficients for a polydispersion Miguel Caldas, Viriato Semião</p><p> 4535 -- 4548</p><p> Homogeneous turbulence evolution in a stably stratified flow-III. Near time span at low inverse Froude number and distant time span at arbitrary Froude number V.A. Babenko</p><p> 4549 -- 4565</p><p> Analysis of the absorption process on a horizontal tube using Navier-Stokes equations with surface-tension effects J.K. Min, D.H. Choi</p><p> 4567 -- 4578</p><p> Volume (issue): 42 (23) 1999 An inverse natural convection problem of estimating the strength of a heat source H.M. Park, O.Y. Chung</p><p> 4259 -- 4273</p><p> Inverse heat conduction problem of determining time-dependent heat transfer coefficient Somchart Chantasiriwan<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 4275 -- 4285</p><p> Frequency response of bodies with combined convective and radiative heat transfer Mark A. Hadley, Gary J. Morris, George Richards, P.C. Upadhyay</p><p> 4287 -- 4297</p><p> Effect of radiation on natural convection about a truncated cone K.A. Yih</p><p> 4299 -- 4305</p><p> An inverse design problem of estimating optimal shape of cooling passages in turbine blades Cheng-Hung Huang, Tao-Yen Hsiung</p><p> 4307 -- 4319</p><p> Fully developed forced convection through trapezoidal and hexagonal ducts Rajashankar Sadasivam, Raj M. Manglik, Milind A. Jog</p><p> 4321 -- 4331</p><p> Film cooling subject to bulk flow pulsations: effects of blowing ratio, freestream velocity, and pulsation frequency C.M. Bell, P.M. Ligrani, W.A. Hull, C.M. Norton<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 4333 -- 4344</p><p> Effect of wall electrical conductivity and magnetic field orientation on liquid metal flow in a geometry similar to the horizontal Bridgman configuration for crystal growth R. Bessaih, M. Kadja, Ph. Marty</p><p> 4345 -- 4362</p><p> Measurements and theoretical modelling of the effective thermal conductivity of zeolites A. Griesinger, K. Spindler, E. Hahne</p><p> 4363 -- 4374</p><p> Solidification inside an axially rotating pipe containing a turbulent liquid flow K.-J. Rinck, H. Beer</p><p> 4375 -- 4389</p><p> Test of several versions for the k- type turbulence modelling of internal mixed convection flows J.J. Costa, L.A. Oliveira, D. Blay</p><p> 4391 -- 4409</p><p> Applicability of traditional turbulent single-phase forced convection correlations to non-circular microchannels T.M. Adams, M.F. Dowling, S.I. Abdel-Khalik, S.M. Jeter<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 4411 -- 4415</p><p> Natural convection heat and mass transfer in partially heated vertical parallel plates Kuan-Tzong Lee</p><p> 4417 -- 4425</p><p> Volume (issue): 42 (22) 1999 Heat transfer in a swirl chamber at different temperature ratios and Reynolds numbers C.R. Hedlund, P.M. Ligrani, B. Glezer, H.-K. Moon</p><p> 4081 -- 4091</p><p> Heat transfer and fluid flow of natural convection around large horizontal cylinders K. Kitamura, F. Kami-iwa, T. Misumi</p><p> 4093 -- 4106</p><p> Condensation/evaporation coefficient and velocity distributions at liquid-vapor interface Takaharu Tsuruta, Hiroyuki Tanaka, Takashi Masuoka</p><p> 4107 -- 4116</p><p> Direct simulation of natural convection cooling in a vertical circular cylinder Wenxian Lin, S.W. Armfield<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 4117 -- 4130</p><p> Theoretical analysis of wafer temperature dynamics in a low pressure chemical vapor deposition reactor Il-Kyoung Kim, Woo-Seung Kim</p><p> 4131 -- 4142</p><p> Optimization of the inlet velocity profile for uniform epitaxial growth in a vertical metalorganic chemical vapor deposition reactor W.K. Cho, D.H. Choi, M.-U. Kim</p><p> 4143 -- 4152</p><p> Vortex flow of low concentration NH4Cl-H2O solution during the solidification process S.Y. Wang, C.X. Lin, M.A. Ebadian</p><p> 4153 -- 4163</p><p> Heat transfer and chemical reactions in exhaust system of a cold-start engine S.H. Chan, D.L. Hoang</p><p> 4165 -- 4183</p><p> Natural convection in a cylindrical porous cavity with internal heat source: a numerical study with Brinkman-extended Darcy model H. Jiménez-Islas, F. López-Isunza, J.A. Ochoa-Tapia<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 4185 -- 4195</p><p> Melting of unfixed material in spherical capsule with non-isothermal wall S.A. Fomin, T.S. Saitoh</p><p> 4197 -- 4205</p><p> Three-dimensional pore network simulation of drying in capillary porous media Y. Le Bray, M. Prat</p><p> 4207 -- 4224</p><p> Entropy generation due to laminar natural convection over a heated rotating cylinder Bassam A.K. Abu-Hijleh, Waleed N. Heilen</p><p> 4225 -- 4233</p><p> Mathematical and experimental modelling of quenching a self-propagating hightemperature synthesis process B.M. Khusid, V.V. Kulebyakin, E.A. Bashtovaya, B.B. Khina</p><p> 4235 -- 4252</p><p> The onset of thermal convection in an initially, stably stratified fluid layer M.C. Kim, K.H. Choi, C.K. Choi<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 4253 -- 4258</p><p> Volume (issue): 42 (21) 1999 Study of heat transfer in horizontal bare and finned annuli M.-I. Farinas</p><p> 3905 -- 3917</p><p> Effect of small vortex-generators on scalar mixing in the developing region of a turbulent jet J. Mi</p><p> 3919 -- 3926</p><p> Numerical study of transient natural convection in a cavity heated periodically with 3927 -- 3941 different types of excitations E.K. Lakhal Thermophysical property measurements of building materials in a periodic state Omar Douzane</p><p> 3943 -- 3958</p><p> Many-length scale fractal model for turbulent mixing of reactants V.A. Sosinovich</p><p> 3959 -- 3966</p><p> Development and validation of an advanced turbulence model for buoyancy driven flows in enclosures F. Liu<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3967 -- 3981</p><p> Turbulent Rayleigh-Bnard convection in low Prandtl-number fluids S. Horanyi</p><p> 3983 -- 4003</p><p> Detailed heat transfer characteristic comparison in straight and 90-deg turned trapezoidal ducts with pin-fin arrays Jenn-Jiang Hwang</p><p> 4005 -- 4016</p><p> Combined free and forced convection laminar film condensation on an inclined circular tube with isothermal surface M. Mosaad</p><p> 4017 -- 4025</p><p> Second law analysis of a swirling flow in a circular duct with restriction B.S. Yilbas</p><p> 4027 -- 4041</p><p> Effect of temporal variation of pressure on vaporization of liquid droplets W.J. Sheu<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 4043 -- 4054</p><p> Gas pressure on the surface of condensed phase in a resonance radiation field V.V. Levdansky</p><p> 4055 -- 4063</p><p> Scaling in a circulating fluidized bed: particle concentration and heat transfer coefficient in a transport zone</p><p> 4065 -- 4075</p><p> coefficient in a transport zone Yu.S. Teplitskiy Analytical characterization and conceptual assessment of solid and fluid temperature differentials in porous media [International Journal of Heat and Mass Transfer 42 (1999) 423-435] D.Y. Lee</p><p> 4077 -- 4077</p><p> Volume (issue): 42 (20) 1999 The effect of Schmidt number on turbulent scalar mixing in a jet-in-crossflow G. He, Y. Guo, A.T. Hsu</p><p> 3727 -- 3738</p><p> Conduction trees with spacings at the tips M. Almogbel, A. Bejan<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3739 -- 3756</p><p> Heat/mass transfer characteristics in two-pass smooth channels with a sharp 180deg turn M. Hirota, H. Fujita, A. Syuhada, S. Araki, T. Yoshida, T. Tanaka</p><p> 3757 -- 3770</p><p> Semi-analytical solution for heat transfer from a buried pipe with convection on the 3771 -- 3786 exposed surface M. Chung, P. Jung, R.H. Rangel The effect of streamwise vortices on the frost growth rate in developing laminar channel flows B.D. Storey, A.M. Jacobi</p><p> 3787 -- 3802</p><p> Effect of cross-sectional aspect ratio on turbulent heat transfer in an orthogonally rotating rectangular smooth duct A. Murata, S. Mochizuki</p><p> 3803 -- 3814</p><p> Thermal patterns on the smooth and rough walls in turbulent flows G. Hetsroni, A. Mosyak, R. Rozenblit, L.P. Yarin</p><p> 3815 -- 3829</p><p> Critical heat flux in a long, curved channel subjected to concave heating J.C. Sturgis, I. Mudawar<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3831 -- 3848</p><p> Free convection from a point source of heat, and heat transfer from spheres at small Grashof numbers V.N. Kurdyumov, A. Linan</p><p> 3849 -- 3860</p><p> Transfert thermique pour l'ecoulement en canalisation cylindrique de fluides a seuil: cas du refroidissement a coefficient d'echange constant K. Javaherdeh, R. Devienne</p><p> 3861 -- 3871</p><p> Heat transfer by fully developed flow and viscous heating in a vertical channel with prescribed wall heat fluxes A. Barletta</p><p> 3873 -- 3885</p><p> Similarity of transport processes in fluidized beds Yu.S. Teplitskiy</p><p> 3887 -- 3899</p><p> Volume (issue): 42 (19) 1999 On the homoclinic orbit for convection in a fluid layer heated from below P. Vadasz<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3557 -- 3561</p><p> Enhancement of liquid forced convection heat transfer in microchannels due to the release of dissolved noncondensables T.M. Adams, S.M. Ghiaasiaan, S.I. Abdel-Khalik</p><p> 3563 -- 3573</p><p> A moving-boundary nodal model for the analysis of the stability of boiling channels V.B. Garea, D.A. Drew, R.T. Jr Lahey</p><p> 3575 -- 3584</p><p> Constructal trees of circular fins for conductive and convective heat transfer A. Alebrahim, A. Bejan</p><p> 3585 -- 3597</p><p> Boundary layer flows in a vertical porous enclosure induced by opposing buoyancy forces A. Amahmid, M. Hasnaoui, M. Mamou, P. Vasseur</p><p> 3599 -- 3608</p><p> Improving the performance of double-pipe heat exchangers by using porous substrates M.K. Alkam, M.A. Al-Nimr<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3609 -- 3618</p><p> Experimental study of a double-diffusive two-layer system in a laterally heated enclosure J. Tanny, B. Yakubov</p><p> 3619 -- 3629</p><p> The temperature distribution and heat transfer in anisotropic electromechanical converter D. Spa_ek</p><p> 3631 -- 3641</p><p> Growth and collapse of a vapor bubble in a small tube H. Yuan, H.N. Oguz, A. Prosperetti</p><p> 3643 -- 3657</p><p> An experimental investigation of the melting process in a rectangular enclosure Y. Wang, A. Amiri, K. Vafai</p><p> 3659 -- 3672</p><p> A direct numerical simulation of natural convection between two infinite vertical differentially heated walls scaling laws and wall functions T.A.M. Versteegh, F.T.M. Nieuwstadt<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3673 -- 3693</p><p> Numerical modeling of the distribution of radionuclides in porous media for strong damage to underground nuclear power station N.A. Kudryashov, S.N. Kolobanov</p><p> 3695 -- 3705</p><p> Effect of inviscid stagnation flow on the freezing of fluid--a theoretical analysis J.-S. Yoo</p><p> 3707 -- 3714</p><p> Modeling the effects of a magnetic field or rotation on flow in a porous medium: momentum equation and anisotropic permeability analogy D.A. Nield</p><p> 3715 -- 3718</p><p> The flow and heat transfer in the wedge-shaped liquid film formed during the growth of a vapour bubble P. Stephan, J. Hammer</p><p> 3719 -- 3721</p><p> Letter to the Editors V.K. Dhir<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3721 -- 3721</p><p> Author's response to the letters by V. Dhir, J. Hammer and P. Stephan J. Mitrovic</p><p> 3722 -- 3724</p><p> Vortex interaction with a translating sphere in a stratified temperature field</p><p> 3725 -- 3725</p><p> M. Masoudi, W.A. Sirignano Volume (issue): 42 (18) 1999 On departure from local thermal equilibrium in porous media due to a rapidly changing heat source: the Sparrow number W.J. Minkowycz, A. Haji-Sheikh, K. Vafai</p><p> 3373 -- 3385</p><p> A three-dimensional inverse heat conduction problem in estimating surface heat flux by conjugate gradient method C. Huang, S. Wang</p><p> 3387 -- 3403</p><p> Analysis of cylindrical heat pipes incorporating the effects of liquid-vapor coupling and non-Darcian transport--a closed form solution N. Zhu, K. Vafai<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3405 -- 3418</p><p> Effects of anisotropy and boundary plates on the critical values of a porous medium heated from below M.R. II Gustafson, L.E. Howle</p><p> 3419 -- 3430</p><p> Influence of molecular vibration and transport model on computation of the wall heat flux G. Zuppardi, F. De Filippis</p><p> 3431 -- 3445</p><p> Enhancement of condensate drainage from a horizontal integral-fin tube by means of a solid strip M. Trela, D. Butrymowicz</p><p> 3447 -- 3459</p><p> Fin efficiency of annular fins made of two materials S. Lalot, C. Tournier, M. Jensen</p><p> 3461 -- 3467</p><p> The influence of soot loading on weighted sum of grey gases solutions to the radiative transfer equation across mixtures of gases and soot N.W. Bressloff<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3469 -- 3480</p><p> Conditional analysis of turbulent heat transport in a quasi two-dimensional wake interacting with a boundary layer G.A. Sideridis, E.G. Kastrinakis, S.G. Nychas</p><p> 3481 -- 3494</p><p> Numerical simulation of vortex shedding past a circular cylinder under the influence of buoyancy B.S.V. Patnaik, P.A.A. Narayana, K.N. Seetharamu</p><p> 3495 -- 3507</p><p> Analysis of local shellside heat and mass transfer in the shell-and-tube heat exchanger with disc-and-doughnut baffles H. Li, V. Kottke</p><p> 3509 -- 3521</p><p> Transient cool-down of a porous medium in pulsating flow J.W. Paek, B.H. Kang, J.M. Hyun</p><p> 3523 -- 3527</p><p> Vortex motion influencing sphere heating--Reynolds analogy revisited M. Masoudi<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3529 -- 3531</p><p> Uniform transpiration effect on combined heat and mass transfer by natural convection over a cone in saturated porous media: uniform wall temperature/concentration or heat/mass flux K.A. Yih</p><p> 3533 -- 3537</p><p> Similarity solutions of stationary thermoelasticity with the frictional heating A. Yevtushenko, S. Koniechny</p><p> 3539 -- 3544</p><p> Free convective mass transfer at up-pointing pyramids of constant inclined length J. Krysa, F. Iino, A.A. Wragg</p><p> 3545 -- 3548</p><p> Volume (issue): 42 (17) 1999 Estimation of thermal effects in cavitation of thermosensible liquids D.H. Fruman, J. Reboud, B. Stutz</p><p> 3195 -- 3204</p><p> Heat transfer in crossflow regenerators J.J. Saastamoinen<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3205 -- 3216</p><p> A low Reynolds number two-equation kq- q model to predict thermal fields C.B. Hwang, C.A. Lin</p><p> 3217 -- 3230</p><p> 3-D numerical analysis of natural convective liquid cooling of a 3 _ 3 heater array in rectangular enclosures S.K.W. Tou, C.P. Tso, X. Zhang</p><p> 3231 -- 3244</p><p> Local thermal nonequilibrium effects in forced convection in a porous medium channel: a conjugate problem D.A. Nield, A.V. Kuznetsov</p><p> 3245 -- 3252</p><p> Measurement of doorway flow field in multi-enclosure building fires Y. He</p><p> 3253 -- 3265</p><p> Packing size and shape effects on forced convection in large rectangular packed ducts with asymmetric heating Y. Demirel, B.A. Abu-Al-Saud, H.H. Al-Ali, Y. Makkawi<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3267 -- 3277</p><p> Prandtl number effect on bifurcation and dual solutions in natural convection in a horizontal annulus J. Yoo</p><p> 3279 -- 3290</p><p> Non-isothermal laminar flow and heat transfer between disks corotating in a fixed enclosure J. Herrero, F. Giralt, J.A.C. Humphrey</p><p> 3291 -- 3306</p><p> Mass diffusion-controlled bubbling and optimum schedule of thermal degradation of polymeric binders in molded powders A.A.M. Oliveira, M. Kaviany, K.E. Hrdina, J.W. Halloran</p><p> 3307 -- 3329</p><p> Finite element method for simulation of 3-D form filling with incompressible fluid I.H. Katzarov</p><p> 3331 -- 3336</p><p> Rayleigh-Benard stability of a solidifying porous medium C. Mackie, P. Desai, C. Meyers<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3337 -- 3350</p><p> Numerical investigation of solidification processes of cylindrical ingots in a metal mould at variable technological circumstances T.P. Chernogorova, P.N. Vabishchevich</p><p> 3351 -- 3359</p><p> Shape and topology design for heat conduction by Evolutionary Structural Optimization Q. Li, G.P. Steven, O.M. Querin, Y.M. Xie</p><p> 3361 -- 3371</p><p> Volume (issue): 42 (16) 1999 Experimental study on interfacial area transport in bubbly two-phase flows T. Hibiki, M. Ishii</p><p> 3019 -- 3035</p><p> Control of fouling in a spirally-ribbed water chilled tube with electronic antifouling technology Y.I. Cho, R. Liu</p><p> 3037 -- 3046</p><p> Local heat transfer measurements of an orthogonally rotating square duct with angled rib turbulators A. Murata, S. Mochizuki, T. Takahashi<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3047 -- 3056</p><p> Stochastic modeling of nonisothermal flow during resin transfer molding S.K. Padmanabhan, R. Pitchumani</p><p> 3057 -- 3070</p><p> Instability of condensate film and capillary blocking in small-diameterthermosyphon condensers H. Teng, P. Cheng, T.S. Zhao</p><p> 3071 -- 3083</p><p> An analytical near wall solution for the - model for transpired boundary layer flows M.R. Avelino, J. Su, A.P.S. Freire</p><p> 3085 -- 3096</p><p> Appraisal of a hot-wire temperature compensation technique for velocity measurements in non-isothermal flows S.J. Ball, S. Ashforth-Frost, K. Jambunathan, C.F. Whitney</p><p> 3097 -- 3102</p><p> Natural convection over a non-isothermal vertical plate M. Havet, D. Blay<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3103 -- 3112</p><p> Heat transfer to liquid drops passing through an immiscible liquid medium between tilted parallel-plate electrodes T. Mochizuki, T. Nozaki, Y.H. Mori, N. Kaji</p><p> 3113 -- 3129</p><p> Heat transfer in a Benard-Karman vortex street in air and in water J.C. Lecordier, F. Dumouchel, P. Paranthoen</p><p> 3131 -- 3136</p><p> Digital computer simulation of dropwise condensation from equilibrium droplet to detectable size B.M. Burnside, H.A. Hadi</p><p> 3137 -- 3146</p><p> Turbulent heat transfer to near-critical water in a heated curved pipe under the conditions of mixed convection L.J. Li, C.X. Lin, M.A. Ebadian</p><p> 3147 -- 3158</p><p> On the parametric excitation of thermoelectric instability in a liquid layer open to air B.L. Smorodin, G.Z. Gershuni, M.G. Velarde<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3159 -- 3168</p><p> On the choice of the reference temperature for fully-developed mixed convection in a vertical channel A. Barletta, E. Zanchini</p><p> 3169 -- 3181</p><p> Angular and transient characteristics of circular electrochemical friction probes P.I. Geshev, N.S. Safarova</p><p> 3183 -- 3188</p><p> Critical heat flux during natural circulation boiling on uniformly heated outer tube in vertical annular tubes submerged in saturated liquid (change in critical heat flux characteristics due to heated equivalent diameter)</p><p> 3189 -- 3194</p><p> in vertical annular tubes submerged in saturated liquid (change in critical heat flux characteristics due to heated equivalent diameter) M. Monde, Y. Mitsutake, M. Hayasi Volume (issue): 42 (15) 1999 Heat transfer--a review of 1995 literature 2717 -- 2797 E.R.G. Eckert, R.J. Goldstein, W.E. Ibele, S.V. Patankar, T.W. Simon, P.J. Strykowski, K.K. Tamma, T.H. Kuehn, A. Bar-Cohen, J.V.R. Heberlein, J.H. Davidson, J. Bischof, F. Kulacki, U. Kortshagen Stability of thermally driven shear flows in long inclined cavities with end-to-end temperature difference R. Delgado-Buscalioni, E.C. del Arco</p><p> 2811 -- 2822</p><p> Particle dispersion in forced isotropic low-Mach-number turbulence F. Mashayek, F.A. Jaberi<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2823 -- 2836</p><p> Momentum and heat transfer in a power-law fluid with arbitrary injection/suction at a moving wall J.H. Rao, D.R. Jeng, K.J. De Witt</p><p> 2837 -- 2847</p><p> Computational study of laminar flow and mass transfer around a surface-mounted obstacle G.B.N. Boum, S. Martemianov, A. Alemany</p><p> 2849 -- 2861</p><p> Thermal non-equilibrium effect on stabilities of falling liquid films B.X. Wang, J.T. Zhang, X.F. Peng</p><p> 2863 -- 2868</p><p> Characterization of two-phase flow patterns in small diameter round and rectangular tubes J.W. Coleman, S. Garimella</p><p> 2869 -- 2881</p><p> Conjugate heat transfer during two-phase solidification process in a continuously moving metal using average heat capacity method M.R. Amin, D. Greif<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2883 -- 2895</p><p> Effects of vertical fins on local heat transfer performance in a horizontal fluid layer S. Inada, T. Taguchi, W. Yang</p><p> 2897 -- 2903</p><p> A new approach for the study of turbulent boundary layers with blowing J. Bellettre, F. Bataille, A. Lallemand</p><p> 2905 -- 2920</p><p> Pulsed radial jet reattachment nozzle D.L. James, J.A. Castleberry, J.Y. Pak</p><p> 2921 -- 2933</p><p> Heat transfer behavior of a temperature-dependent non-Newtonian fluid with Reiner-Rivlin model in a 2:1 rectangular duct S. Shin, H. Ahn, Y.I. Cho, C. Sohn</p><p> 2935 -- 2942</p><p> Influence of sweeping on dropwise condensation with varying body force and surface subcooling C. Yamali, H. Jr. Merte<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2943 -- 2953</p><p> Mixed convection heat and mass transfer in rectangular ducts rotating about a parallel axis W. Yan</p><p> 2955 -- 2965</p><p> Transient coupled radiative and conductive heat transfer in an absorbing, emitting and scattering medium</p><p> 2967 -- 2980</p><p> and scattering medium H. Tan, L. Ruan, X. Xia, Q. Yu, T.W. Tong Experiments on melting of slush ice in a horizontal cylindrical capsule T. Kawanami, S. Fukusako, M. Yamada, K. Itoh</p><p> 2981 -- 2990</p><p> Etude analytique et numerique de la convection naturelle dans une couche poreuse de Brinkman doublement diffusive A. Amahmid, M. Hasnaoui, P. Vasseur</p><p> 2991 -- 3005</p><p> Marangoni instability of a layer of binary liquid in the presence of nonlinear Soret effect S. Slavtchev, G. Simeonov, S. Van Vaerenbergh, J.C. Legros<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3007 -- 3011</p><p> Numerical evaluation of the Graetz series C. Housiadas, F.E. Larrode, Y. Drossinos</p><p> 3013 -- 3017</p><p> Volume (issue): 42 (14) 1999 Theoretical analysis of spreading and solidification of molten droplet during thermal spray deposition H. Zhang</p><p> 2499 -- 2508</p><p> Thermal mixed convection induced locally by a step change in surface temperature in a Poiseuille flow in the framework of Triple Deck theory P. Lagree</p><p> 2509 -- 2524</p><p> Numerical prediction of heat and momentum transfer over micro-grooved surface</p><p> 2525 -- 2541</p><p> with a nonlinear k- model M. Benhalilou, N. Kasagi Process intensification: heat and mass transfer characteristics of liquid films on rotating discs A. Aoune, C. Ramshaw<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2543 -- 2556</p><p> Heat and mass transfer with phase change in a porous structure partially heated: continuum model and pore network simulations C. Figus, Y. Le Bray, S. Bories, M. Prat</p><p> 2557 -- 2569</p><p> Chaotic mixing and mass transfer enhancement by pulsatile laminar flow in an axisymmetric wavy channel B.S. Lee, I.S. Kang, H.C. Lim</p><p> 2571 -- 2581</p><p> Plane contact problem for a layer involving frictional heating V.J. Pauk</p><p> 2583 -- 2589</p><p> Cyclic steady thermal response of rapidly switched fixed-bed heat regenerators in counterflow F. de Monte</p><p> 2591 -- 2604</p><p> Frost formation in rotary heat and moisture exchangers S. Bilodeau, P. Brousseau, M. Lacroix, Y. Mercadier<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2605 -- 2619</p><p> Free convection boundary-layer flow along a vertical surface in a porous medium with Newtonian heating D. Lesnic, D.B. Ingham, I. Pop</p><p> 2621 -- 2627</p><p> Secondary flow and enhancement of heat transfer in horizontal parallel-plate and convergent channels heating from below</p><p> 2629 -- 2647</p><p> convergent channels heating from below C. Gau, C.W. Liu, T.M. Huang, W. Aung Solutions of Luikov equations of heat and mass transfer in capillary porous bodies through matrix calculus: a new approach R.N. Pandey, S.K. Srivastava, M.D. Mikhailov</p><p> 2649 -- 2660</p><p> Inverse problem of coupled heat and moisture transport for prediction of moisture distributions in an annular cylinder W. Chang, C. Weng</p><p> 2661 -- 2672</p><p> Effect of anisotropy on transport phenomena in anisotropic porous media J.H. Yang, S.L. Lee<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2673 -- 2681</p><p> Experimental and theoretical study of one- and two-component droplet vaporization in a high pressure environment J. Stengele, K. Prommersberger, M. Willmann, S. Wittig</p><p> 2683 -- 2694</p><p> A non-equilibrium internal exchange of energy and matter and its Onsager's-type variational theory of relaxation S. Sieniutycz, A.N. Beris</p><p> 2695 -- 2715</p><p> Volume (issue): 42 (13) 1999 Double-diffusive convection in an annular verticalporous layer M. Marcoux, M.-C. Charrier-Mojtabi, M. Azaiez</p><p> 2313 -- 2325</p><p> Pseudosteady-state natural convection inside spherical containers partially filled with a porous medium Y. Zhang, J.M. Khodadadi, F. Shen</p><p> 2327 -- 2336</p><p> Entropy generation in a rectangular packed duct with wall heat flux Y. Demirel, R. Kahraman<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2337 -- 2344</p><p> Natural convection in rectangular enclosures heated from one side and cooled from the ceiling O. Aydin, A. Unal, T. Ayhan</p><p> 2345 -- 2355</p><p> Turbulent mass transfer in the developing diffusion layer at large Schmidt numbers S. Martemyanov, E. Skurygin, J. Legrand</p><p> 2357 -- 2362</p><p> 3-D numerical modeling of heat transfer between two sliding bodies: temperature and thermal contact resistance B. Salti, N. Laraqi</p><p> 2363 -- 2374</p><p> Investigation of heat transfer characteristics on various kinds of fin-and-tube heat exchangers with interrupted surfaces J.Y. Yun, K.S. Lee</p><p> 2375 -- 2385</p><p> Exact solution to stationary onset of convection due to surface tension variationin a multicomponent fluid layer with interfacial deformation J.R.L. Skarda, F.e. McCaughan<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2387 -- 2398</p><p> Etude numerique du transfert dechaleur et de masse entre deux plaques planes verticalesen presence dun film de liquide binaireruisselant sur lune des plaques chauffee A.A. Cherif, A. Daf</p><p> 2399 -- 2418</p><p> Pressure gradient and variable wall temperature effects during filmwise condensation from downward flowing vapors onto a horizontal tube C.-H. Hsu, S.-a. Yang</p><p> 2419 -- 2426</p><p> Natural convection of a two-layer fluid inaside-heated cavity A.m. Bethancourt L, M. Hashiguchi, K. Kuwahara, J.M. Hyun</p><p> 2427 -- 2437</p><p> Elimination of boiling incipience temperature drop in highly wetting fluids using spherical contact with a flat surface S.J. Reed, I. Mudawar</p><p> 2439 -- 2454</p><p> The effect of steady streamwise surface temperature variations on vertical free convection D.a.s. Rees<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2455 -- 2464</p><p> Mixed convection flow in a lid-driven enclosure filled with a fluid-saturated porous medium K.M. Khanafer, A.J. Chamkha</p><p> 2465 -- 2481</p><p> Technical Note Pool boiling incipience and vapor bubble growth dynamics in surfactant solutions W.-T. Wu, Y.-M. Yang, J.-R. Maa</p><p> 2483 -- 2488</p><p> Technical Note The effect of concave surface curvature on heat transfer from a fully developed round impinging jet D.H. Lee, Y.S. Chung, S.Y. Won</p><p> 2489 -- 2497</p><p> Volume (issue): 42 (12) 1999 Estimation of thermal contact resistance during the first stages of metal solidification process: I - experiment principle and modelisation T Loulou, EA Artyukhin, JP Bardon</p><p> 2119 -- 2127</p><p> Estimation of thermal contact resistance during the first stages of metal solidification process: II - experimental setup and results T Loulou, EA Artyukhin, JP Bardon<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2129 -- 2142</p><p> Salt-finger convection generated by thermal and solutal capillary motion in a stratified fluid CL Chan, CF Chen</p><p> 2143 -- 2159</p><p> Energy wheel effectiveness: part I - development of dimensionless groups C Simonson, RW Besant</p><p> 2161 -- 2170</p><p> Energy wheel effectiveness: part II - correlations C Simonson, RW Besant</p><p> 2171 -- 2185</p><p> Experimental analysis of unsteady heat and moisture transfer around a heated cylinder buried into a porous medium RES Moya, AT Prata, JAB Cunha Neto</p><p> 2187 -- 2198</p><p> An experimental study of slot jet impingement cooling on concave surface: Effects of nozzle configuration and curvature G Yang, M Choi, JS Lee<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2199 -- 2209</p><p> Thermal conductivity of polyurethane foams JW Wu, WF Sung, HS Chu</p><p> 2211 -- 2217</p><p> A fractal geometry model for evaluation permeabilities of porous preforms used in liquid composite molding R Pitchumani, B Ramakrishnan</p><p> 2219 -- 2232</p><p> Ice and water film growth from incoming supercooled droplets TG Myers, DW Hammond</p><p> 2233 -- 2242</p><p> Combined forced and free convection with viscous dissipation in a vertical circular duct A Barletta</p><p> 2243 -- 2253</p><p> A new application of successive approximation to radiative exchange among surfaces: direct and inverse problems CY Wu, SH Wu<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2255 -- 2267</p><p> Convective film cooling over a representative turbine blade leading-edge S Thakur, J Wright, W Shyy</p><p> 2269 -- 2285</p><p> Analysis of two-layered micro-channel heat sink concept in electronic cooling K Vafai, L Zhu</p><p> 2287 -- 2297</p><p> A general modeling for heat transfer during reflux condensation inside vertical tubes surrounded by isothermal fluid GH Chou, JC Chen</p><p> 2299 -- 2311</p><p> Volume (issue): 42 (11) 1998 Detailed measurements of local heat transfer coefficients in turbulent flow through smooth and rib-roughened serpentine passages with a 180o sharp bend S Mochizuki, A Murata, R Shibata, WJ Yang</p><p> 1925 -- 1934</p><p> Heat transfer and pressure drop during condensation of refrigerant 134a in an axially grooved tube D Graham, JC Chato, TA Newell<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 1935 -- 1944</p><p> Heat transfer and friction correlation for compact louvered fin-and-tube heat exchangers CC Wang, CJ Lee, CT Chang, SP Lin</p><p> 1945 -- 1956</p><p> An empirical investigation into the external heat transfer of a U-bend in cross-flow DK Harris, VW Goldschmidt</p><p> 1957 -- 1968</p><p> An inverse method for estimation of the initial temperature profile and its evolution 1969 -- 1978 in polymer processing KT Nguyen, M Prystay Experimental Nusselt numbers for a cubical-cavity benchmark problem in natural convection WH Leong, KGT Hollands, AP Brunger</p><p> 1979 -- 1989</p><p> Nondimensional size effects on the thermodynamic properties of solids RS Prasher, PE Phelan</p><p> 1991 -- 2001</p><p> Experimental evaluation of constants for the rohsenow pool boiling correlation IL Pioro<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2003 -- 2013</p><p> Gravitational and centrifugal buoyancy effects in curved square channels with conjugated boundary conditions</p><p> 2015 -- 2029</p><p> TW Gyves, Jr. TF Irvine, MHN Naraghi Heat transfer efficiency of metal honeycombs TJ Lu</p><p> 2031 -- 2040</p><p> Suppressing free convection from a flat plate with poor conductor ribs I Sezai, AA Mohamad</p><p> 2041 -- 2051</p><p> Heat transfer enhancement due to self-sustained oscillating transverse vortices in channels with periodically mounted rectangular bars A Valencia</p><p> 2053 -- 2062</p><p> Direct statistical simulation of gas mixture mass transfer in a porous layer with condensation of one of the components and absorption of another N Pavlyukevich<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2063 -- 2069</p><p> Measurements of heat transfer and fluid flow in a rectangular duct with alternate attached-detached rib-arrays YP Tsia, JJ Hwang</p><p> 2071 -- 2083</p><p> Heat transfer in gravity-driven film flow of power-law fluids DY Shang, HI Andersson</p><p> 2085 -- 2099</p><p> Heat transfer characteristics of an axisymmetric jet impinging in the rib-roughened 2101 -- 2110 convex surface YS Chung, DH Lee Buoyant convection in a non-rectangular cavity with non-vertical insulating sidewalls GB Kim, JM Hyun</p><p> 2111 -- 2117</p><p> Volume (issue): 42 (10) 1998 Heat transfer in a conjugate heat exchanger with a wavy fin surface S.F. Tsai, T.W.H. Sheu, S.M. Lee</p><p> 1735 -- 1745</p><p> EHD-assisted external condensation of R-134a on smooth horizontal and vertical tubes K. Cheung, M.M. Ohadi, S.V. Dessiatoun<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 1747 -- 1755</p><p> Finite-rate chemistry in modelling of two-dimensional jet premixed CH4/air flame X. Zhou, G. Brenner, T. Weber, F. Durst</p><p> 1757 -- 1773</p><p> Vaporization, melting and heat conduction in the laser drilling process Yuwen Zhang, A. Faghri</p><p> 1775 -- 1790</p><p> A heat transfer model for thermal fluctuations in a thin slider/disk air bearing S. Zhang, D.B. Bogy</p><p> 1791 -- 1800</p><p> Natural convection from a horizontal cylinder in a rectangular cavity G. Cesini, M. Paroncini, G. Cortella, M. Manzan</p><p> 1801 -- 1811</p><p> The role of the Brinkman number in analysing flow transitions in microchannels C.P. Tso, S.P. Mahulikar<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 1813 -- 1833</p><p> Critical heat flux in a long, rectangular channel subjected to one-sided heating-I. flow visualization J. Christopher Sturgis, Issam Mudawar</p><p> 1835 -- 1847</p><p> Critical heat flux in a long, rectangular channel subjected to one-sided heating-II. Analysis of critical heat flux data J.C. Sturgis, I. Mudawar</p><p> 1849 -- 1862</p><p> An implicit method for reconstructing dynamic three-dimensional phase boundaries under low Peclet number conditions R.G. Keanini</p><p> 1863 -- 1884</p><p> Effective thermal conductivity of gas-solid composite materials and the temperature difference effect at high temperature X.-G. Liang, W. Qu</p><p> 1885 -- 1893</p><p> Natural convective heat transfer from isothermalconic W.M. Lewandowski, S. Szymaski, P. Kubski, E. Radziemska, H. Bieszk, T. Wilczewski<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 1895 -- 1907</p><p> Experimental study of surface effect on flow boiling heat transfer in horizontal smooth tubes J. Yu, S. Momoki, S. Koyama</p><p> 1909 -- 1918</p><p> Technical Note A heat transfer and friction correlation for wavy fin-and-tube heat exchangers C.-C. Wang, J.-Y. Jang, N.-F. Chiou</p><p> 1919 -- 1924</p><p> Volume (issue): 42 (9) 1998 An experimental study of flow and heat transfer in sinusoidal wavy passages T.A. Rush, T.A. Newell, A.M. Jacobi</p><p> 1541 -- 1553</p><p> Comparative analysis of jet impingement and microchannel cooling for high heat flux applications D.-Y. Lee, K. Vafai</p><p> 1555 -- 1568</p><p> Finite element modelling of heat transfer analysis in machining of isotropic materials M.V. Ramesh, K.N. Seetharamu, N. Ganesan, G. Kuppuswamy<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 1569 -- 1583</p><p> Turbulence phenomena in the radio frequency induction plasma torch R. Ye, P. Proulx, M.I. Boulos</p><p> 1585 -- 1595</p><p> Heat transfer coefficient and friction factor correlations for the transitional flow regime in rib-roughened rectangular ducts R. Karwa, S.C. Solanki, J.S. Saini</p><p> 1597 -- 1615</p><p> 1617 -- 1632 Electroconvective heat transfer in a suspension of rod-like akageneite particle ( FeOOH) M.F. Haque, S. Arajs Thermal and hydrodynamic analysis of the condensation and evaporation processes in horizontal tube desalination plant A.D. Al-Ansari, I. Owen</p><p> 1633 -- 1644</p><p> Large scale motions in a manipulated turbulent boundary layer N. Rashidnia, A.B. Ebiana</p><p> 1645 -- 1664</p><p> Orientation effects on pool boiling critical heat flux (CHF) and modeling of CHF for near-vertical surfaces A.H. Howard, I. Mudawar<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 1665 -- 1688</p><p> Buoyancy driven instability in a horizontal layer of electrically conducting fluid in the presence of a vertical magnetic field M. Takashima, M. Hirasawa, H. Nozaki</p><p> 1689 -- 1706</p><p> The influence of recycle on double-pass heat and mass transfer through a parallelplate device C.-D. Ho, H.-M. Yeh, W.-S. Sheu</p><p> 1707 -- 1722</p><p> Numerical study of coupled electromagnetic and aerothermodynamic phenomena in a circuit breaker electric arc H. Rachard, P. Chevrier, D. Henry, D. Jeandel</p><p> 1723 -- 1734</p><p> Volume (issue): 42 (8) 1998 The Sparrow-Galerkin solution of radiation exchange and transition to finite element W.J. Minkowycz, A. Haji-Sheikh</p><p> 1353 -- 1362</p><p> Heat transfer in micro region of a rotating miniature heat pipe L. Lin, A. Faghri<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 1363 -- 1369</p><p> Experimental and numerical investigation of heat transfer and phase change phenomena during excimer laser interaction with nickel X. Xu, G. Chen, K.H. Song</p><p> 1371 -- 1382</p><p> Laminar mixed convection correlations for an isothermal cylinder in cross flow at different angles of attack A. Bassam, K. Abu-Hijleh</p><p> 1383 -- 1388</p><p> Near-wall hydrodynamics in a scale-model circulating fluidized bed P.D. Noymer, L.R. Glicksman</p><p> 1389 -- 1403</p><p> Ultra-high critical heat flux (CHF) for subcooled water flow boiling--I: CHF data and parametric effects for small diameter tubes I. Mudawar, M.B. Bowers</p><p> 1405 -- 1428</p><p> Ultra-high critical heat flux (CHF) for subcooled water flow boiling--II: high-CHF database and design equations D.D. Hall, I. Mudawar<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 1429 -- 1456</p><p> Prediction of the critical heat flux in water subcooled flow boiling using a new mechanistic approach G.P. Celata, M. Cumo, Y. Katto, A. Mariani</p><p> 1457 -- 1466</p><p> Spray evaporation heat transfer of R-141b on a horizontal tube bundle T.B. Chang, J.S. Chiou</p><p> 1467 -- 1478</p><p> Interfacial breakdown of double-diffusive convective layers by a horizontal temperature gradient T. Nishimura, Y. Ogata, S. Sakura, A.M. Morega</p><p> 1479 -- 1489</p><p> Validation of an electronic anti-fouling technology in a single-tube heat exchanger Y.I. Cho, B. Choi</p><p> 1491 -- 1499</p><p> Moisture transport in intensive microwave heating of biomaterials: a multiphase porous media model H. Ni, A.K. Datta, K.E. Torrance<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 1501 -- 1512</p><p> A variance propagation algorithm for the computation of heat conduction under stochastic conditions B.M. Nicolai, J. De Baerdemaeker</p><p> 1513 -- 1520</p><p> Heat transfer in a three-dimensional turbulent boundary layer with longitudinal vortices S.H. Lee, H.S. Ryou, Y.K. Choi</p><p> 1521 -- 1534</p><p> Heat transfer in turbulent pipe flow revisited: similarity law for heat and momentum transport in low-Prandtl-number fluids V. Tricoli</p><p> 1535 -- 1540</p><p> Volume (issue): 42 (7) 1998 Investigation of the cooling of hot walls by liquid water sprays M Ciofalo, I Di Piazza, V Brucato</p><p> 1157 -- 1175</p><p> Investigation of the cooling of hot walls by liquid water sprays M. Ciofalo, I. Di Piazza, V. Brucato<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 1157 -- 1175</p><p> Convective heat transfer in the entrance region of a vertical tube for water near the thermodynamic critical point J.R. Howell, S.H. Lee</p><p> 1177 -- 1187</p><p> Boiling liquid nitrogen heat transfer in channels with porous copper inserts T.M. Kuzay, J.T. Collins, J. Koons</p><p> 1189 -- 1204</p><p> Numerical investigation of buoyancy driven flow in a fluid saturated non-Darcian porous medium P. Nithiarasu, K.N. Seetharamu, T. Sundararajan</p><p> 1205 -- 1215</p><p> Effect of an oblique plate on the heat transfer enhancement of mixed convection over heated blocks in a horizontal channel H. Wu, S. Perng</p><p> 1217 -- 1235</p><p> Modified effective thermal conductivity due to heat dispersion in fibrous porous media K. Hsiao, S.G. Advani<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 1237 -- 1254</p><p> Single-phase heat transfer enhancement in a curved, rectangular channel subjected to concave heating J.C. Sturgis, I. Mudawar</p><p> 1255 -- 1272</p><p> Thermal conductance of cylindrical joints C.V. Madhusudana</p><p> 1273 -- 1287</p><p> Heat convection from a sphere placed in an oscillating free stream R.S. Alassar, H.M. Badr, H.A. Mavromatis</p><p> 1289 -- 1304</p><p> A two-equation turbulence model and its application to a buoyant diffusion flame Z. Yan, G. Holmstedt</p><p> 1305 -- 1315</p><p> Fluid flow and heat transfer in molten metal stirred by a circular inductor Y.W. Cho, S.H. Chung, J.D. Shim, S. Dement'ev, S. Ivanov<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 1317 -- 1326</p><p> Control of Marangoni-Benard convection H.H. Bau</p><p> 1327 -- 1341</p><p> Experimental investigation of turbulent heat transfer and fluid flow in internally finned tubes M.K. Jensen, A. Vlakancic</p><p> 1343 -- 1351</p><p> Volume (issue): 42 (6) 1998 The Lewis number under supercritical conditions K. Harstad, J. Bellan</p><p> 961 -- 970</p><p> A probability density function approach to modeling turbulence-radiation interactions in nonluminous flames S. Mazumder, M.F. Modest</p><p> 971 -- 991</p><p> Condensation heat transfer and pressure drop of refrigerant R-134a in a plate heat exchanger Y. Yan, H. Lio, T. Lin<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 993 -- 1006</p><p> Heat transfer from a horizontal wafer-based disk of multi-chip modules Y.R. Shieh, C.J. Li, Y.H. Hung</p><p> 1007 -- 1022</p><p> Characteristics of flow instabilities from unstable stratification of density in channel shear layers at low Reynolds numbers S. Gupta, P.M. Ligrani, J.C. Giddings</p><p> 1023 -- 1036</p><p> Thermoconvective instability in a rotating magnetic field M.P. Volz, K. Mazuruk</p><p> 1037 -- 1045</p><p> Free convection in oblique enclosures filled with a porous medium A.C. Baytas, I. Pop</p><p> 1047 -- 1057</p><p> Role of inter- and intraparticle diffusion in nonuniform particle size gasless compacted-powder combustion synthesis--I: formulation A.A.M. Oliveira, M. Kaviany<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 1059 -- 1073</p><p> Role of inter- and intraparticle diffusion in nonuniform particle size gasless compacted powder combustion synthesis--II: results and comparison with experiment A.A.M. Oliveira, M. Kaviany</p><p> 1075 -- 1095</p><p> The effect of air bubbles on the diffusion-controlled solidification of water and aqueous solutions of ammonium chloride M.V.A. Bianchi, R. Viskanta</p><p> 1097 -- 1110</p><p> A numerical investigation of three-dimensional magnetoconvection in rectangular cavities R. Mo_ner, U. Muller</p><p> 1111 -- 1121</p><p> Solution of inverse heat conduction problems using control volume approach J. Taler, W. Zima</p><p> 1123 -- 1140</p><p> Optimization of inlet concentration profile for uniform deposition in a cylindrical chemical vapor deposition chamber W.K. Cho, D.H. Choi, M.-U. Kim<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 1141 -- 1146</p><p> Turbulent heat transfer from a convex hemispherical surface to a round impinging jet H.L. Dae, S.C. Young, G.K. Moo</p><p> 1147 -- 1156</p><p> Volume (issue): 42 (5) 1998 Melting of a subcooled mixed powder bed with constant heat flux heating Y. Zhang, A. Faghri</p><p> 775 -- 788</p><p> Heat transfer on a film-cooled rotating blade using different turbulence models V.K. Garg</p><p> 789 -- 802</p><p> Analysis of transient heat/mass transfer and adsorption/desorption interactions A.G. Fedorov, R. Viskanta</p><p> 803 -- 819</p><p> Experimental study of double-diffusive convection in a rotating annulus with lateral heating L. Jinho, H.K. Shin, S.S. Young<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 821 -- 832</p><p> Lid-driven cavity with heat and mass transport N. Alleborn, H. Raszillier, F. Durst</p><p> 833 -- 853</p><p> Wavy, wavelike, diffusive thermal responses of finite rigid slabs to high-speed heating of laser-pulses D.W. Tang, N. Araki</p><p> 855 -- 860</p><p> Coupled heat and mass transfer of a stagnation point flow in a heated porous bed with liquid film evaporation T.S. Zhao</p><p> 861 -- 872</p><p> Mass transfer in turbulent impinging slot jets Q. Chen, V. Modi</p><p> 873 -- 887</p><p> Determination of operation envelopes for closed, two-phase thermosyphons M.S. El-Genk, H.H. Saber<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 889 -- 903</p><p> Boiling heat transfer coefficients inside a vertical smooth tube for water/ammonia and ammonia/lithium nitrate mixtures W. Rivera, R. Best</p><p> 905 -- 921</p><p> Two- and three-dimensional natural and mixed convection simulation using modular zonal models in buildings E. Wurtz, J. Nataf, F. Winkelmann</p><p> 923 -- 940</p><p> Large-eddy simulation of the combined convection around a heated rotating cylinder R.E.M. Morales, A. Balparda, A. Silveira-Neto</p><p> 941 -- 949</p><p> Thermodynamic optimisation of a heat exchanger R.L. Cornelissen, G.G. Hirs</p><p> 951 -- 959</p><p> Volume (issue): 42 (4) 1998 Natural convection in a porous layer bounded by impervious domains: from numerical approaches to experimental realization S. Chevalier, D. Bernard, N. Joly<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 581 -- 597</p><p> Heat transfer in a wall jet at high turbulence of cocurrent stream V.P. Lebedev, V.V. Lemanov, V.I. Terekhov</p><p> 599 -- 612</p><p> Heat and momentum transfer in fluids heated in tubes with turbulence generators at moderate Prandtl and Reynolds numbers I. Zio_kowska, M. Dolata, D. Zio_kowski</p><p> 613 -- 627</p><p> Onset of oscillatory flows in double-diffusive convection K. Ghorayeb, H. Khallouf, A. Mojtabi</p><p> 629 -- 643</p><p> Combined thermal and optical analysis of laser back-scribing for amorphous-silicon photovoltaic cells processing S. Avagliano, N. Bianco, O. Manca, V. Naso</p><p> 645 -- 656</p><p> An experimental study of heat transfer by laminar natural convection between an electrically-heated vertical plate and both Newtonian and non-Newtonian fluids J.F.T. Pittman, J.F. Richardson, C.P. Sherrard<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 657 -- 671</p><p> Effect of an unsteady external flow on mass transfer to cavities A.K. Shehata, J.D. Yang, A.C. West, V. Modi</p><p> 673 -- 683</p><p> Analysis of laminar mixed-convection condensation on isothermal plates using the full boundary-layer equations: mixtures of a vapor and a lighter gas V. Srzic, H.M. Soliman, S.J. Ormiston</p><p> 685 -- 695</p><p> Condensation heat transfer and pressure drop of refrigerant R-134a in a small pipe Y. Yan, T. Lin</p><p> 697 -- 708</p><p> Transition and multiplicity of flows in natural convection in a narrow horizontal cylindrical annulus: Pr = 0.4 J. Yoo</p><p> 709 -- 722</p><p> Comparison of low Reynolds number k- models in simulation of momentum and heat transport under high free stream turbulence G.R. Iyer, S. Yavuzkurt<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 723 -- 737</p><p> The effects of inlet turbulence on the development of fluid flow and heat transfer in a helically coiled pipe C.X. Lin, M.A. Ebadian</p><p> 739 -- 751</p><p> Flow transitions in laminar Rayleigh-Benard convection in a cubical cavity at moderate Rayleigh numbers J. Pallares, F.X. Grau, F. Giralt</p><p> 753 -- 769</p><p> Natural convection driven in CO2 near its critical point under terrestrial gravity conditions H. Azuma, S. Yoshihara, M. Onishi, K. Ishii, S. Masuda, T. Maekawa</p><p> 771 -- 774</p><p> Fundamentals of Heat and Mass Transfer B. Spalding</p><p> 3689 -- 3690</p><p> Volume (issue): 42 (3) 1998 Wavelets and discrete ordinates method in solving one-dimensional nongray radiation 385 -- 393 problem Y. Wang, Y. Bayazitoglu Numerical modeling of continuous hybrid heating of cryo-preserved tissue Q. Zhang, T.H. Jackson, A. Ungan, D. Gao<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 395 -- 403</p><p> Experimental evaluation of thermal performance of Gifford-McMahon regenerator using an improved single-blow model with radial conduction Z. Chang, M. Hung, P. Ding, P. Chen</p><p> 405 -- 413</p><p> Numerical investigations of the compressible flow and the energy separation in the Ranque-Hilsch vortex tube</p><p> 415 -- 422</p><p> Ranque-Hilsch vortex tube W. Frohlingsdorf, H. Unger Analytical characterization and conceptual assessment of solid and fluid temperature differentials in porous media D. Lee, K. Vafai</p><p> 423 -- 435</p><p> Double diffusive convection in dual-permeability, dual-porosity porous media M.Z. Saghir, M.R. Islam</p><p> 437 -- 454</p><p> A unified solution for heat conduction in thin films K.J. Hays-Stang, A. Haji-Sheikh<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 455 -- 465</p><p> Numerical study of magneto-fluid-mechanic combined free-and-forced convection heat transfer M.J. Al-Khawaja, R.K. Agarwal, R.A. Gardner</p><p> 467 -- 475</p><p> The implications of the thermal equilibrium assumption for surrounding-driven steady conduction within a saturated porous medium layer J.L. Lage</p><p> 477 -- 485</p><p> Heat transfer in laminar flow in a concentric annulus with peripherally varying heat transfer E. Buyruk, H. Barrow, I. Owen</p><p> 487 -- 496</p><p> Development of secondary flow and convective heat transfer in isothermal/iso-flux rectangular ducts rotating about a parallel axis C.Y. Soong, W.M. Yan</p><p> 497 -- 510</p><p> Optimum profiles for asymmetrical longitudinal fins in cylindrical ducts G. Fabbri<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 511 -- 523</p><p> The effect of a uniform vertical magnetic field on the linear growth rates of steady Marangoni convection in a horizontal layer of conducting fluid I. Hashim, S.K. Wilson</p><p> 525 -- 533</p><p> Unsteady mass transport from a sphere immersed in a porous medium at finite Peclet numbers Z.-G. Feng, E.E. Michaelides</p><p> 535 -- 546</p><p> On the convective instability of a horizontal binary mixture layer with Soret effect under transversal high frequency vibration G.Z. Gershuni, A.K. Kolesnikov, J.C. Legros, B.I. Myznikova</p><p> 547 -- 553</p><p> Oscillatory thermocapillary flows in open cylindrical containers induced by CO2 laser heating Y. Kamotani, S. Ostrach, J. Masud</p><p> 555 -- 564</p><p> Estimation of thermal properties in combined conduction and radiation H.Y. Li<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 565 -- 572</p><p> Numerical simulation of a 2-D crystal growth problem in vertical BridgmanStockbarger furnace: latent heat effect and crystal-melt interface morphology D. Morvan, M. El Ganaoui, P. Bontoux</p><p> 573 -- 579</p><p> Volume (issue): 42 (2) 1998 Three-dimensional propagation of hyperbolic thermal waves in a solid bar with rectangular cross-section</p><p> 219 -- 229</p><p> rectangular cross-section A. Barletta, E. Zanchini Heat transfer in a rotating two-pass smooth passage with a 180° rectangular turn T.-M. Liou, C.C. Chen</p><p> 231 -- 247</p><p> Short time-scale radiative transfer in light-emitting porous silicon M.C. Hipwell, C.L. Tien</p><p> 249 -- 261</p><p> The combined effects of wall longitudinal heat conduction, inlet fluid flow nonuniformity and temperature nonuniformity in compact tube-fin heat exchangers: a finite element method Ch. Ranganayakulu, K.N. Seetharamu<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 263 -- 273</p><p> Thermal performance of a latent heat energy storage ventilated panel for electric load management A. Laouadi, M. Lacroix</p><p> 275 -- 286</p><p> Critical heat flux of water subcooled flow in one-side heated swirl tubes J. Boscary, J. Fabre, J. Schlosser</p><p> 287 -- 301</p><p> Optimisation de la diffusion du gaz dans des materiaux reactifs, siege de transferts de chaleur, de masse et d'une reaction chimique P. Jolly, N. Mazet</p><p> 303 -- 321</p><p> Heat transfer simulation in vertical cylindrical enclosures for supercritical Rayleigh number and arbitrary side-wall conductivity A. Ivancic, A. Oliva, C.D. Perez Segarra, M. Costa</p><p> 323 -- 343</p><p> The determination of two heat sources in an inverse heat conduction problem C. Yang<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 345 -- 356</p><p> Unsteady mixed convection boundary-layer flow on a vertical surface in a porous medium S.D. Harris, D.B. Ingham, I. Pop</p><p> 357 -- 372</p><p> An analytical approach to the conduction-dominated solidification of binary mixtures J.D. Chung, J.S. Lee, S.T. Ro, H. Yoo</p><p> 373 -- 377</p><p> Conjugate heat and mass transfer in metal hydride beds in the hydriding process Z. Guo, H.J. Sung</p><p> 379 -- 382</p><p> Volume (issue): 42 (1) 1998 Comparison of steady state and transient methods for measurement of local heat transfer in plate fin-tube heat exchangers using liquid crystal thermography with radiant heating R.E. Critoph, M.K. Holland, M. Fisher</p><p> 1 -- 12</p><p> Effects of a random porosity model on heat transfer performance of porous media W.-S. Fu, H.-C. Huang<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 13 -- 25</p><p> Unification of the streamline, heatline and massline methods for the visualization of two-dimensional transport phenomena V.A.F. Costa</p><p> 27 -- 33</p><p> Mixed convection heat transfer in a radially rotatingsquare duct with radiation effects W.-M. Yan, H.-Y. Li, D. Lin</p><p> 35 -- 47</p><p> Large-eddy simulation of turbulent flow over a two-dimensional cavity with temperature fluctuations A.d. Matos, F.A.A. Pinho, A. Silveira-Neto</p><p> 49 -- 59</p><p> Convection de Rayleigh-Benard dans les liquides magnetiques en cellule de Hele-Shaw annulaire M. Souhar, S. Aniss, J.P. Brancher</p><p> 61 -- 72</p><p> Radiative exchange in a parallel-plate enclosure with translucent protective coatings on its walls R. Siegel<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 73 -- 84</p><p> Laser-induced surface-tension-driven flows in liquids J.P. Longtin, K.H. jikata, K. Ogawa</p><p> 85 -- 93</p><p> Flow driven by a hot wire immersed in a horizontal liquid layer J.-F. Mercier, C. Normand</p><p> 95 -- 110</p><p> Convection induced by residual-g and g-jitters in diffusion experiments R. Savino, R. Monti</p><p> 111 -- 126</p><p> On the solution of inverse heat transfer problem using the Karhunen-Loeve Galerkin method H.M. Park, O.Y. Chung, J.H. Lee</p><p> 127 -- 142</p><p> The identification of the piecewise homogeneous thermal conductivity of conductors subjected to a heat flow test D. Lesnic, L. Elliott, D.B. Ingham, B. Clennell, R.J. Knipe<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 143 -- 152</p><p> Combined mass and heat transfer during nonisothermal absorption in gas-liquid slug flow with small bubbles in liquid plugs T. Elperin, A. Fominykh</p><p> 153 -- 163</p><p> Air-water mass transfer of organics from shallow ponds under laminar recirculation I. Cuesta, F.X. Grau, F. Giralt, Y. Cohen</p><p> 165 -- 179</p><p> The effect of radiation on free convection from a porous vertical plate M.A. Hossain, M.A. Alim, D.A.S. Rees</p><p> 181 -- 191</p><p> Technical Note a computationally efficient method for Monte Carlo simulation of diffuse radiant emission or reflection F. Kowsary</p><p> 193 -- 195</p><p> Volume (issue): 41 (24) 1998 Volume contents January, Number 1<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> iii -- xxvii</p><p> Author index</p><p> xxix -- xxxii</p><p> Flame localization inside axis-symmetric cylindrical and spherical porous media burners S.A. Zhdanok, K.V. Dobrego, S.I. Futko</p><p> 3647 -- 3655</p><p> Upflow turbulent mixed convection heat transfer in vertical pipes G.P. Celata, F. D'Annibale, A. Chiaradia, M. Cumo</p><p> 4037 -- 4054</p><p> The Nusselt condensation and nonisothermality J. Mitrovic</p><p> 4055 -- 4061</p><p> Two- and three-dimensional numerical models of flow and heat transfer over louvred fin arrays in compact heat exchangers K.N. Atkinson, R. Drakulic, M.R. Heikal, T.A. Cowell<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 4063 -- 4080</p><p> Temperature fluctuations in particle-laden homogeneous turbulent flows F.A. Jaberi</p><p> 4081 -- 4093</p><p> Chaotic map models of soot fluctuations in turbulent diffusion flames S. Mukerji, J.M. McDonough, M.P. Menguc, S. Manickavasagam, S. Chung</p><p> 4095 -- 4112</p><p> Heat transfer of dilute spray impinging on hot surface (simple model focusing on rebound motion and sensible heat of droplets) S. Nishio, Y. Kim</p><p> 4113 -- 4119</p><p> Multiple and unsteady solutions for buoyancy driven flows in spherical annuli C. Thamire, N.T. Wright</p><p> 4121 -- 4138</p><p> Physico-chemical processes occurring inside a degrading two-dimensional anisotropic porous medium C. Di Blasi<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 4139 -- 4150</p><p> Heat transfer enhancement of a finned oval tube with punched longitudinal vortex generators in-line Y. Chen, M. Fiebig, N.K. Mitra</p><p> 4151 -- 4166</p><p> Thermophoretic deposition of small particles in a direct numerical simulation of turbulent channel flow D.G. Thakurta, M. Chen, J.B. McLaughlin, K. Kontomaris</p><p> 4167 -- 4182</p><p> Evaporation heat transfer and pressure drop of refrigerant R-134a in a small pipe Y. Yan, T. Lin</p><p> 4183 -- 4194</p><p> Pulsed electromagnetic heating of microparticles J.F. Widmann, E.J. Davis</p><p> 4195 -- 4204</p><p> Two-phase co-current flow in inclined pipe P.L. Spedding, J.K. Watterson, S.R. Raghunathan, M.E.G. Ferguson<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 4205 -- 4228</p><p> Modeling forced liquid convection in rectangular microchannels with electrokinetic effects C. Yang, D. Li, J.H. Masliyah</p><p> 4229 -- 4249</p><p> Maximum density effect on laminar water pipe flow solidification C.W. Tsai, S.J. Yang, G.J. Hwang</p><p> 4251 -- 4257</p><p> Transient analysis of incompressible flow through a packed bed A. Amiri, K. Vafai</p><p> 4259 -- 4279</p><p> Rotation induced stabilization of air convection in a bottom heated diverging cylinder rotating about its own axis Y.T. Ker, T.F. Lin</p><p> 4281 -- 4295</p><p> Mean structure in the viscous layer of strongly-heated internal gas flows. Measurements A.M. Shehata, D.M. McEligot<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 4297 -- 4313</p><p> Mass transfer of CO2 through liquid CO2-water interface H Teng, A Yamasaki</p><p> 4315 -- 4325</p><p> Mass transfer of CO2 through liquid CO2-water interface H. Teng, A. Yamasaki</p><p> 4315 -- 4325</p><p> Onset of transition to turbulence in natural convection with gas along a vertical isotherm plane M. Jannot, T. Kunc</p><p> 4327 -- 4340</p><p> Two-phase flow patterns and transition characteristics for in-tube condensation with different surface inclinations W.C. Wang, X.H. Ma, Z.D. Wei, P. Yu</p><p> 4341 -- 4349</p><p> Dynamic simulation of the vertical zone-melting crystal growth C.W. Lan, D.T. Yang<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 4351 -- 4373</p><p> The role of longitudinal diffusion in fully developed forced convective slug flow in a channel D.A. Nield, J.L. Lage</p><p> 4375 -- 4377</p><p> A refined solute diffusion model for columnar dendritic alloy solidification H. Yoo, C.-J. Kim</p><p> 4379 -- 4383</p><p> Flow characteristics in a heated rotating straight pipe M.A. Petrakis</p><p> 4385 -- 4392</p><p> Transient behavior of vertical buoyancy layer in a stratified fluid S.P. Jun, M.H. Jae</p><p> 4393 -- 4397</p><p> Volume (issue): 41 (23) 1998 Experimental study of critical heat flux in concentric-tube open thermosyphon Md.A. Islam, M. Monde, M.Z. Hasan, Y. Mitsutake<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3691 -- 3704</p><p> Heat and mass transfer from internal flows to hemispheres and flat parts in between F.L.A. Ganzevles, C.W.M. van der Geld</p><p> 3705 -- 3718</p><p> Evaporative cooling of liquid film in turbulent mixed convection channel flows W. Yan</p><p> 3719 -- 3729</p><p> On the solution of parabolic and hyperbolic inverse heat conduction problems N. Al-Khalidy</p><p> 3731 -- 3740</p><p> Etude des echanges convectifs sur un arbre ailete tournant, soumis a un courant d'air parallele aux ailettes B. Watel, S. Harmand, B. Desmet</p><p> 3741 -- 3757</p><p> Natural convection mass transfer along a dissolution boundary layer in an isothermal binary metallic system S.W. Shiah, B.C. Yang, F.B. Cheung, Y.C. Shih<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3759 -- 3769</p><p> A dry-spot model for transition boiling heat transfer in pool boiling J.H. Sang, C.N. Hee</p><p> 3771 -- 3779</p><p> Detailed heat transfer distributions in two-pass square channels with rib turbulators and bleed holes S.V Ekkad, Y. Huang, J. Han</p><p> 3781 -- 3791</p><p> Turbulent mixed convective heat transfer in the entrance region of a curved pipe with uniform wall-temperature</p><p> 3793 -- 3805</p><p> with uniform wall-temperature L.J. Li, C.X. Lin, M.A. Ebadian Dynamic void fraction measurements in horizontal ducts with sudden area contraction M. Fossa, G. Guglielmini</p><p> 3807 -- 3815</p><p> On a physically-realizable benchmark problem in internal natural convection W.H. Leong, K.G.T. Hollands, A.P. Brunger<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3817 -- 3828</p><p> Enhancement of heat transfer in an inviscid-flow thermal boundary layer due to a Rankine vortex R. Romero-Mendez, M. Sen, K.T. Yang, R.L. McClain</p><p> 3829 -- 3840</p><p> Heat transfer mechanism for Newtonian and non-Newtonian fluids in 2 : 1 rectangular ducts P.Y. Chang, F.C. Chou, C.W. Tung</p><p> 3841 -- 3856</p><p> An experimental investigation of bubble growth and detachment in vertical upflow and downflow boiling G.E. Thorncroft, J.F. Klausner, R. Mei</p><p> 3857 -- 3871</p><p> Thermal analysis of a cryomicroscope: effect of heat spreading and contact resistance M.V.A. Bianchi, R. Viskanta</p><p> 3873 -- 3880</p><p> A simplified wide band model of the cumulative distribution function for carbon dioxide O. Marin, R.O. Buckius<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3881 -- 3897</p><p> Pulsative heating of surfaces S.Z. Shuja, B.S. Yilbas</p><p> 3899 -- 3918</p><p> Classification of one-dimensional steady-state two-phase geothermal flows including permeability variations--I. Theory and special cases R.M. Young</p><p> 3919 -- 3935</p><p> Classification of one-dimensional steady-state two-phase geothermal flows including permeability variations--II. The general case R.M. Young</p><p> 3937 -- 3948</p><p> Effect of viscous dissipation on mixed convection in a vertical channel with boundary conditions of the third kind E. Zanchini</p><p> 3949 -- 3959</p><p> Conjugate heat transfer of a finned oval tube with a punched longitudinal vortex generator in form of a delta winglet--parametric investigations of the winglet Y. Chen, M. Fiebig, N.K. Mitra<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3961 -- 3978</p><p> Convection in a shallow rectangular cavity due to internal heat generation P.G. Daniels, O.K. Jones</p><p> 3979 -- 3987</p><p> Experimental analysis of a confined transitional plume with respect to subgridscale modelling R.J.M. Bastiaans, C.C.M. Rindt, A.A. van Steenhoven</p><p> 3989 -- 4007</p><p> Boiling stability characteristics of methanol flowing over a nonuniformly heated surfaceLin, J.C. Yang, D.J. Lee W.W.</p><p> 4009 -- 4023</p><p> W.W. Lin, J.C. Yang, D.J. Lee Integral solutions of diffusion-controlled dendrite tip growth X. Tong, C. Beckermann</p><p> 4025 -- 4029</p><p> On the effect of lateral thermal convection on freely falling liquid film flow B.X. Wang, Z. Jintao, X.F. Peng<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 4031 -- 4033</p><p> Volume (issue): 41 (22) 1998 Professor Kwang-Tzu Yang on his 70th birthday 3339 -- 3340 Y. Jaluria, P. Cheng, R.J. Goldstein, J.P. Hartnett, M.D. Kelleher, J.R. Lloyd, W.J. Minkowycz, A.A. Szewczyk, C. Tien Heat transfer bibliography--Japanese works 1996 I. Tanasawa, S. Nishio, K. Suzuki</p><p> 3341 -- 3356</p><p> A comparative study of radiative heat transfer modelling in gas-fired furnaces using the simple grey gas and the weighted-sum-of-grey-gases models F. Liu, H.A. Becker, Y. Bindar</p><p> 3357 -- 3371</p><p> A mixing length model for strongly heated subsonic turbulent boundary layers R. Meignen, G. Berthoud</p><p> 3373 -- 3385</p><p> A model for the heating of slender samples in monoellipsoidal mirror furnaces R. Haya, D. Rivas, B.I. Myznikova</p><p> 3387 -- 3395</p><p> Unsteady free convection flow in the stagnation-point region of a three-dimensional body A. Slaouti, H.S. Takhar, G. Nath<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3397 -- 3408</p><p> Momentum and heat transfer from cylinders in laminar crossflow at 10?4 _ Re _ 200 C.F. Lange, F. Durst, M. Breuer</p><p> 3409 -- 3430</p><p> Convective and radiative internal heat transfer augmentation with fiber arrays A.R. Martin, C. Saltiel, J. Chai, W. Shyy</p><p> 3431 -- 3440</p><p> Mass transfer from rotating circular cylinders in a submerged slot jet of air T. Pekdemir, T.W. Davies</p><p> 3441 -- 3450</p><p> Nucleate boiling of refrigerant-oil mixtures: bubble equilibrium and oil enrichment at the interface of a growing vapour bubble J. Mitrovic</p><p> 3451 -- 3467</p><p> Prediction of thermal contact resistance between polished surfaces E.G. Wolff, D.A. Schneider<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3469 -- 3482</p><p> Interphase fluctuation propagation and superposition model for boiling nucleation H.Y. Hu, G.P. Peterson, X.F. Peng, B.X. Wang</p><p> 3483 -- 3489</p><p> Nucleate pool boiling of mercury in the presence of a magnetic field M.A. Lopez de Bertodano, S. Leonardi, P.S. Lykoudis</p><p> 3491 -- 3500</p><p> Laminar mixed convection with viscous dissipation in a vertical channel A. Barletta</p><p> 3501 -- 3513</p><p> The effect of injection hole length on film cooling with bulk flow pulsations H.J. Seo, J.S. Lee, P.M. Ligrani</p><p> 3515 -- 3528</p><p> H.J. Seo, J.S. Lee, P.M. Ligrani Interfacial behaviour of growing bubbles in concentration boundary layer L.H. Chai, X.F. Peng, B.X. Wang, J.M. Ochterbeck<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3529 -- 3535</p><p> Isolated fluid oxygen drop behavior in fluid hydrogen at rocket chamber pressures K. Harstad, J. Bellan</p><p> 3537 -- 3550</p><p> Interactions of fluid oxygen drops in fluid hydrogen at rocket chamber pressures K. Harstad, J. Bellan</p><p> 3551 -- 3558</p><p> Heat transfer enhancement in three-dimensional corrugated channel flow D.R. Sawyers, M. Sen, H. Chang</p><p> 3559 -- 3573</p><p> The evolution of laminar jets of Herschel-Bulkley fluids I.H. Jafri, G.C. Vradis</p><p> 3575 -- 3588</p><p> Effect of contaminant properties and temperature gradients on the efficiency of transient gaseous contaminant removal from an enclosure: a numerical study M. Soria, A. Oliva, M. Costa, C.D. Perez-Segarra<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3589 -- 3609</p><p> An efficient simulation of the heat and mass transfer processes during drying of capillary porous, hygroscopic materials C. Dietl, E.R.F. Winter, R. Viskanta</p><p> 3611 -- 3625</p><p> Direct numerical simulation of a turbulent channel flow with a linear spanwise mean temperature gradient K. Matsubara, M. Kobayashi, H. Maekawa</p><p> 3627 -- 3634</p><p> Numerical and experimental study of transient turbulent natural convection in a horizontal cylindrical container J.L. Xia, B.L. Smith, G. Yadigaroglu, U. Gantner, B. Sigg</p><p> 3635 -- 3645</p><p> Flame localization inside axis-symmetric cylindrical and spherical porous media burners S.A. Zhdanok, K.V. Dobrego, S.I. Futko</p><p> 3647 -- 3655</p><p> Flame localization inside axis-symmetric cylindrical and spherical porous media burners SA Zhdanok, KV Dobrego, SI Futko<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3647 -- 3655</p><p> Non-absorbable gas effect on the wavy film absorption process Y. Ru, T. Jou</p><p> 3657 -- 3668</p><p> Layer merging during solidification of supereutectic NH4Cl-H2O system T. Nishimura, T. Imoto, M. Wakamatsu</p><p> 3669 -- 3674</p><p> Transient analysis of internally heated tubular components with exponential thermal loading and external convection V.R. Vedula, A.E. Segall, S.K. Rangarajan</p><p> 3675 -- 3678</p><p> Augmentation of steam condensation heat transfer by addition of methylamine J.N.A. Morrison, C. Philpott, J. Deans</p><p> 3679 -- 3683</p><p> A study of microencapsulated chiral nematics in the presence of electric fields M.K. Evans, C.W. Rapley, D.W. Wilcock, T.H. Sheldrake<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3685 -- 3687</p><p> Fundamentals of Heat and Mass Transfer, by Incropera and DeWitt, and Introduction B Spalding to Heat Transfer, by Incropera and DeWitt</p><p> 3689 -- 3690</p><p> B Spalding Fundamentals of Heat and Mass Transfer B. Spalding</p><p> 3689 -- 3690</p><p> Volume (issue): 41 (21) 1998 A new turbulence model for near-wall natural convection W. Xu, Q. Chen, F.T.M. Nieuwstadt</p><p> 3161 -- 3176</p><p> Model reduction in linear heat conduction: use of interface fluxes for the numerical coupling D. Petit, R. Hachette</p><p> 3177 -- 3189</p><p> Observation of boiling structures in high heat-flux boiling S. Nishio, T. Gotoh, N. Nagai<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3191 -- 3201</p><p> Conjugate natural convection from a vertical heated slab S. Kimura, A. Okajima, T. Kiwata</p><p> 3203 -- 3211</p><p> Heat and fluid flow in pulsed current GTA weld pool W.-H. Kim, S.-J. Na</p><p> 3213 -- 3227</p><p> Adsorption of toluene on activated carbon in a packed bed J. San, Y. Hsu, L. Wu</p><p> 3229 -- 3238</p><p> Conjugate thermal transport in the channel of an extruder for non-Newtonian fluids P. Lin, Y. Jaluria</p><p> 3239 -- 3253</p><p> Heat transfer analysis of buoyancy-assisted mixed convection with asymmetric heating conditions Z. Xiaodong, S. Dutta<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3255 -- 3264</p><p> Computation of the solidification of pure metals in plate geometry using the Green's function method S. Hong, K. Schwerdtfeger</p><p> 3265 -- 3278</p><p> Convective flow and heat transfer in a channel containing multiple heated obstacles T.J. Young, K. Vafai</p><p> 3279 -- 3298</p><p> Beam focusing characteristics effect on energy reflection and absorption in a drilling or welding cavity of paraboloid of revolution P.S. Wei, C.Y. Ho</p><p> 3299 -- 3308</p><p> Thermal influence of boundaries on the onset of Rayleigh-Benard convection P. Cerisier, S. Rahal, J. Cordonnier, G. Lebon</p><p> 3309 -- 3320</p><p> The thermal-hydraulic characteristics of staggered circular finned-tube heat exchangers under dry and dehumidifying conditions J. Jang, J. Lai, L. Liu<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3321 -- 3337</p><p> Volume (issue): 41 (20) 1998 Measurements of friction, heat transfer, and mass transfer in a severely outgassing tube bank B. Debusschere, K.W. Ragland</p><p> 3015 -- 3024</p><p> Buoyancy induced flow and heat transfer in a cylindrical annulus with multiple perturbations S.V. Iyer, K. Vafai</p><p> 3025 -- 3035</p><p> Multi-dimensional modeling of thin liquid films and spray-wall interactions resulting from impinging sprays D.W. Stanton, C.J. Rutland</p><p> 3037 -- 3054</p><p> Natural convection in a narrow horizontal cylindrical annulus : Pr _ 0.3 J. Yoo</p><p> 3055 -- 3073</p><p> Influence of fuel-side heat loss on diffusion flame extinction A. Ray, I.S. Wichman<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3075 -- 3085</p><p> A highly radiative combustion chamber for heavy fuel oil combustion R. Villasenor, R. Escalera</p><p> 3087 -- 3097</p><p> A guarded cold plate apparatus for absolute measurement of heat flow C.J. Dey, A.J. Read, R.E. Collins, M. Brunotte</p><p> 3099 -- 3108</p><p> Heat and mass transfer for plate fin-and-tube heat exchangers, with and without hydrophilic coating C. Wang, C. Chang</p><p> 3109 -- 3120</p><p> Pulsed-wire technique for velocity measurements in natural convection flows--a numerical optimisation tool M. Grignon, E. Mathioulakis, P. Ngae, J.G. Poloniecki</p><p> 3121 -- 3129</p><p> Convective cooling of a heated obstacle in a channel T.J. Young, K. Vafai<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 3131 -- 3148</p><p> Transient cooling of water around a cylinder in a rectangular cavity--a numerical analysis of the effect of the position of the cylinder K. Sasaguchi, K. Kuwabara, K. Kusano, H. Kitagawa</p><p> 3149 -- 3156</p><p> Prediction of the resonance frequency of natural convection in an enclosure with time-periodic heating imposed on one sidewall H.S. Kwak, K. Kuwahara, J.M. Hyun</p><p> 3157 -- 3160</p><p> Volume (issue): 41 (19) 1998 Transient convective heat transfer in a helical coiled tube with pulsatile fully developed turbulent flow G. Liejin, C. Xuejun, F. Ziping, B. Bofeng</p><p> 2867 -- 2875</p><p> A simplified wide band model of the cumulative distribution function for water vapor O. Marin, R.O. Buckius</p><p> 2877 -- 2892</p><p> Application of the transfer configuration factors in radiation heat transfer J.A. Stasiek<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2893 -- 2907</p><p> Boiling vertical two-phase flow at sub-atmospheric pressures H. Kockum, A. Jernqvist</p><p> 2909 -- 2924</p><p> Two-mode boiling on a horizontal heating wire: effects of liquid subcoolings D.J. Lee</p><p> 2925 -- 2928</p><p> Deposition of tin droplets on a steel plate: simulations and experiments M. Pasandideh-Fard, R. Bhola, S. Chandra, J. Mostaghimi</p><p> 2929 -- 2945</p><p> A zero-dimensional model for spray droplet vaporization at high pressures and temperatures T.B. Gradinger, K. Boulouchos</p><p> 2947 -- 2959</p><p> Use of electronic anti-fouling technology with filtration to prevent fouling in a heat exchanger Y.I. Cho, F. Chunfu, B. Choi<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2961 -- 2966</p><p> Theoretical study of heat and mass transfer in a zeolite bed during water desorption: validity of local thermal equilibrium assumption A. Mhimid</p><p> 2967 -- 2977</p><p> Control of thermal runaway--some mathematical insights J. Geer, J. Fillo</p><p> 2979 -- 2990</p><p> Application of a photographic method for determining mass transfer to flow around a submerged parallelepiped P.M. Schlosser, M.N. Godo, T.D. Fornes, E.C. Hubal</p><p> 2991 -- 3004</p><p> Effect of baffle size, perforation, and orientation on internal heat transfer enhancement P. Dutta, S. Dutta</p><p> 3005 -- 3013</p><p> Volume (issue): 41 (18) 1998 Optimization of conduits' shape in micro heat exchangers H.H. Bau<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2717 -- 2723</p><p> Mass transfer rate study in rotating shallow electrochemical cells F.-B. Weng, Y. Kamotani, S. Ostrach</p><p> 2725 -- 2733</p><p> An analytical study for determining the dynamics of a boiling boundary in a channel S. Benedek, D.A. Drew</p><p> 2735 -- 2742</p><p> On the evolution of double-diffusive intrusions into a stably stratified liquid: a study of the layer merging process E.J. Kranenborg, H.A. Dijkstra</p><p> 2743 -- 2756</p><p> Propagation of the third sound wave in fluid: hypothesis and theoretical foundation W. Roetzel, B. Spang, X. Luo, S.K. Das</p><p> 2769 -- 2780</p><p> The developing Nusselt numbers for slug flow in rectangular ducts M. Spiga, G.L Morini<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2799 -- 2807</p><p> Modelisation du transfert de chaleur dans un reacteur de pyrolyse sous pression reduite utilise pour le traitement des sols contamines C. Roy, J.C. Choque, J. Yang</p><p> 2809 -- 2819</p><p> Surface tension effect in the two-fluids equation system S. Lee, K. Chang, S. Kim</p><p> 2821 -- 2826</p><p> Flow and mass transfer measurements for a flat plate of finite thickness in pulsating flow K.S. Hwang, H.J. Sung, J.M. Hyun</p><p> 2827 -- 2836</p><p> Resonant enhancement of natural convection heat transfer in a square enclosure H.S. Kwak, K. Kuwahara, J.M. Hyun</p><p> 2837 -- 2846</p><p> Radiative heat transfer in anisotropic scattering media with specular boundary subjected to collimated irradiation S. Maruyama<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2847 -- 2856</p><p> Rotary heat exchanger performance with axial heat dispersion S. Nair, S. Verma, S.C. Dhingra</p><p> 2857 -- 2864</p><p> Flow of a micropolar fluid past a continuously moving plate by the presence of radiation A. Raptis</p><p> 2865 -- 2866</p><p> Instability of condensate film and capillary blocking in small-diameterthermosyphon condensers H. Teng, P. Cheng, T.S. Zhao</p><p> 3071 -- 3083</p><p> Mass diffusion-controlled bubbling and optimum schedule of thermal degradation of polymeric binders in molded powders A.A.M. Oliveira, M. Kaviany, K.E. Hrdina, J.W. Halloran</p><p> 3307 -- 3329</p><p> Volume (issue): 41 (17) 1998 Electronic anti-fouling technology to mitigate precipitation fouling in plate-andframe heat exchangers Y.I. Cho, B. Choi, B.J. Drazner<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2565 -- 2571</p><p> Flow and heat transfer in convection-dominated melting in a rectangular cavity heated from below Z. Gong, A.S. Mujumdar</p><p> 2573 -- 2580</p><p> Radiative heat transfer in soot-containing combustion systems with aggregation T.L. Farias, M.G. Carvalho, U.O. Koylu</p><p> 2581 -- 2587</p><p> An analytical study of heat and mass transfer through a parallel-plate channel with recycle C. Ho, H. Yeh, W. Sheu</p><p> 2589 -- 2599</p><p> Direct numerical simulations of evaporating droplet dispersion in forced low Mach number turbulence F. Mashayek</p><p> 2601 -- 2617</p><p> Analytical modeling of the startup characteristics of asymmetrical flat-plate and disk-shaped heat pipes N. Zhu, K. Vafai<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2619 -- 2637</p><p> Vortex interaction with a translating sphere in a stratified temperature field M. Masoudi, W.A. Sirignano</p><p> 2639 -- 2652</p><p> Effective medium approximation for the conductivity of sensible heat in dry snow E.M. Arons, S.C. Colbeck</p><p> 2653 -- 2666</p><p> Oscillatory instability analysis of Benard-Marangoni convection in a rotating fluid under a uniform magnetic field F. Chang, K. Chiang</p><p> 2667 -- 2675</p><p> Numerical solution of boundary layer equations in compressible cross-flow to a cylinder</p><p> 2677 -- 2685</p><p> cylinder H. Karabulut, O.E. Ataer Effects of buoyancy and orientation on the flow in a duct preceded with a doublestep expansion Y. Tsui, S. Shu<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2687 -- 2695</p><p> The radiation transfer in emitting, absorbing and scattering media of complex geometric form O.G. Martynenko, M.L. German, V.P. Nekrasov, E.F. Nogotov</p><p> 2697 -- 2704</p><p> Effect of magnetic fields on oscillating mixed convection B. Pan, B.Q. Li</p><p> 2705 -- 2710</p><p> Experimental study on the relation between thermophoresis and size of aerosol particles A. Toda, H. Ohnishi, R. Dobashi, T. Hirano, T. Sakuraya</p><p> 2710 -- 2713</p><p> Industrial Two-Phase Thermosyphons L.L. Vasiliev</p><p> 2715 -- 2715</p><p> Volume (issue): 41 (16) 1998 In memoriam--Professor Kunio Hijikata (1943-1997) 2417 -- 2418 T. Inoue, S. Kotake, Y. Kurosaki, W. Nakayama, R. Buckius, A. Majumdar, P. Peterson, G.P. Peterson Sur le refroidissement d'un cylindre chauffe en regime permanent de convection mixte M. Amaouche, A. Chennafi<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2419 -- 2428</p><p> Heat and solute diffusion with a moving interface : a boundary element approach M. Zerroukat, H. Power, L.C. Wrobel</p><p> 2429 -- 2436</p><p> Laminar natural convection in a laterally heated and upper cooled vertical cylindrical enclosure A. Lemembre, J.-P. Petit</p><p> 2437 -- 2454</p><p> Temperature distribution in swirling jets V. Shtern, A. Borissov, F. Hussain</p><p> 2455 -- 2467</p><p> Effects of gravity on the boiling of binary fluid mixtures S. Ahmed, V.P. Carey</p><p> 2469 -- 2483</p><p> An investigation of the solutal, thermal and flow fields in unidirectional alloy solidification J.E. Simpson, S.V. Garimella<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2485 -- 2502</p><p> Combustion of unsupported water-in-n-heptane emulsion droplets in a convectionfree environment G.S. Jackson, C.T. Avedisian</p><p> 2503 -- 2515</p><p> Experimental and numerical study on natural convection from vertical plates with horizontal rectangular grooves C.E. Kwak, T.H. Song</p><p> 2517 -- 2528</p><p> Several aspects of the return flows formation in horizontal CVD reactors T.M. Makhviladze, A.V. Martjushenko</p><p> 2529 -- 2536</p><p> Visualization study of melting and solidification in convecting hypoeutectic Ga-In alloy R. Derebail, J.N. Koster</p><p> 2537 -- 2548</p><p> Non-linear convection in a porous medium with inclined temperature gradient and vertical throughflow Q. Zongchun, P.N. Kaloni<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2549 -- 2552</p><p> Study of suspended vaporizing volatile liquid droplets by an enhanced sensitivity holographic technique: additional results G. Toker, J. Stricker</p><p> 2553 -- 2555</p><p> Analytical investigation of Couette flow in a composite channel partially filled with a porous medium and partially with a clear fluid A.V. Kuznetsov</p><p> 2556 -- 2560</p><p> Numerical study of a backward-facing step with uniform normal mass bleed Y. Nagano</p><p> 2561 -- 2561</p><p> The Finite Element Method in Heat-transfer Analysis B. Spalding</p><p> 2563 -- 2564</p><p> Volume (issue): 41 (15) 1998 Heat and mass transfer in wet porous media in presence of evaporation-condensation A. Bouddour, J.-L. Auriault, M. Mhamdi-Alaoui, J.-F. Bloch<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2263 -- 2277</p><p> Applicability of photothermal radiometry for temperature measurement of semiconductors G. Chen, T. Borca-Tasciuc</p><p> 2279 -- 2285</p><p> Mass transfer properties in a grid generated turbulent flow: some experimental investigations about the concept of turbulent diffusivity F. Lemoine, Y. Antoine, M. Wolff, M. Lebouche</p><p> 2287 -- 2295</p><p> A numerical study of interfacial transport to a gas-sheared wavy liquid V. Bontozoglou</p><p> 2297 -- 2305</p><p> On the convection in an enclosed container with unstable side wall temperature distributions Craig C. Jahnke, Vikram Subramanyan, Daniel T. Valentine</p><p> 2307 -- 2320</p><p> A general correlation for pool film boiling heat transfer from a horizontal cylinder to saturated binary liquid mixtures Ming-Huei Liu, Yu-Min Yang, Jer-Ru Maa<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2321 -- 2334</p><p> Reacting stagnation flows in catalytic porous beds Chin-Tsau Hsu, Huili Fu</p><p> 2335 -- 2346</p><p> Quantitative infrared-thermography for wall-shear stress measurement in laminar flow R. Mayer, R. A. W. M. Henkes, J. L. Van Ingen</p><p> 2347 -- 2356</p><p> Frictional losses and convective heat transfer in sparse, periodic cylinder arrays in cross flow A. R. Martin, C. Saltiel, W. Shyy</p><p> 2383 -- 2397</p><p> Modeling of non-uniform heat dissipation and prediction of hot spots in power transistors L. Zhu, K. Vafai, L. Xu</p><p> 2399 -- 2407</p><p> Limits of mass transfer enhancement in lithium bromide--water absorbers by active techniques Bor-Bin Tsai, Horacio Perez-Blanco<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2409 -- 2416</p><p> Volume (issue): 41 (14) 1998 Experimental investigation on Marangoni drop migrations using drop shaft facility J.C. Xie, H. Lin, J.H. Han, X.Q. Dong, W.R. Hu, A. Hirata, M. Sakurai</p><p> 2077 -- 2081</p><p> Transient conductive-radiative cooling of an optical quality glass disk H.L. Kong, R. Viskanta</p><p> 2083 -- 2096</p><p> On single limits and the asymptotic behaviour of separating turbulent boundary layers D.O.A. Cruz, A.P. Silva Freire</p><p> 2097 -- 2111</p><p> On the evolution of double-diffusive intrusions into a stably stratified liquid: the physics of self-propagation H.A. Dijkstra, E.J. Kranenborg</p><p> 2113 -- 2124</p><p> The mean temperature field of a buoyancy-induced boundary layer adjacent to a vertical plate immersed in a stratified medium J. Tanny, J. Cohen<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2125 -- 2130</p><p> The effect of tank geometry on thermally stratified sensible heat storage subject to low Reynolds number flows P.C. Eames, B. Norton</p><p> 2131 -- 2142</p><p> Terrestrial and microgravity pool boiling heat transfer from a wire in an acoustic field J.S. Sitter, T.J. Snyder, J.N. Chung, P.L. Marston</p><p> 2143 -- 2155</p><p> Double diffusive and Marangoni convection in a multi-cavity system M.Z. Saghir, M. Hennenberg, M.R. Islam</p><p> 2157 -- 2174</p><p> Laminar natural convection from constant heat flux helical coiled tubes M.E. Ali</p><p> 2175 -- 2182</p><p> A nucleate boiling model for structured enhanced surfaces L. Chien, R.L. Webb<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2183 -- 2195</p><p> Etude de l'evaporation en convection mixte d'un film liquide d'un melange binaire s'ecoulant sur un plan incline soumis a un flux de chaleur constant A. Agunaoun, A. Il Idrissi, A. Daif, R. Barriol</p><p> 2197 -- 2210</p><p> A numerical investigation of electroconductive heating in solid-liquid mixtures S. Orangi, S. Sastry, L. Qiong</p><p> 2211 -- 2220</p><p> A novel concept for convective heat transfer enhancement Z.Y. Guo, D.Y. Li, B.X. Wang</p><p> 2221 -- 2225</p><p> Non-grey gas radiative transfer analyses using the statistical narrow-band model F. Liu, O.L. Gulder, G.J. Smallwood, Y. Ju</p><p> 2227 -- 2236</p><p> Simultaneous estimations of temperature-dependent thermal conductivity and heat capacity H. Chen, J. Lin<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2237 -- 2244</p><p> A sequential method to estimate the strength of the heat source based on symbolic computation C. Yang</p><p> 2245 -- 2252</p><p> Solution for non-Fourier dual phase lag heat conduction in a semi-infinite slab with surface heat flux P.J. Antaki</p><p> 2253 -- 2258</p><p> Experimental study of simultaneous heat and moisture transfer around single short porous cylinders during convection drying by a psychrometry method S. Sun, T.R. Marrero</p><p> 2259 -- 2259</p><p> Volume (issue): 41 (13) 1998 Double diffusive layer formation near a cooled liquid-solid boundary E.J. Kranenborg, H.A. Dijkstra</p><p> 1873 -- 1884</p><p> Double-diffusive natural convection in trapezoidal enclosures J.T. Van der Eyden, Th.H. Van der Meer, K. Hanjalic, E. Biezen, J. Bruining<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 1885 -- 1898</p><p> Study on plasma enhanced CVD coated material to promote dropwise condensation 1899 -- 1906 of steam G. Koch, D.C. Zhang, A. Leipertz, M. Grischke, K. Trojan, H. Dimigen Influence of fish antifreeze proteins on the freezing of cell suspensions with cryoprotectant penetrating cells H. Ishiguro, B. Rubinsky</p><p> 1907 -- 1915</p><p> The natural convection of liquid metal in a cubical enclosure with various electroconductivities of the wall under the magnetic field T. Tagawa, H. Ozoe</p><p> 1917 -- 1928</p><p> Kinetic theory analysis of heat transfer in granular flows V.V.R. Natarajan, M.L. Hunt</p><p> 1929 -- 1944</p><p> Constructal theory of natural crack pattern formation for fastest cooling A. Bejan, Y. Ikegami, G.A. Ledezma</p><p> 1945 -- 1954</p><p> The use of the diffusion velocity in conservation equations for multicomponent gas mixtures A.F. Mills<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 1955 -- 1968</p><p> Three-dimensional laser heating including evaporation--a kinetic theory approach B.S. Yilbas, M. Sami</p><p> 1969 -- 1981</p><p> Natural convective cooling of a horizontal heat conducting plate facing up in an otherwise adiabatic cavity E. Luna, C. Trevino</p><p> 1983 -- 1991</p><p> Nucleate pool boiling heat transfer in a highly wetting liquid on micro-graphitefiber composite surfaces H. Liang, W. Yang</p><p> 1993 -- 2001</p><p> A numerical study of transient mixed convection in cylindrical thermal storage tanks</p><p> 2003 -- 2011</p><p> tanks R.E. Spall Thermal resistance of two solids in contact through a cylindrical joint K. Tio, C.T. Kok<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2013 -- 2024</p><p> Maximum power from a hot stream A. Bejan, M.R. Errera</p><p> 2025 -- 2035</p><p> The geometric optics approximation for reflection from two-dimensional random rough surfaces T. Kakuen, R.O. Buckius</p><p> 2037 -- 2047</p><p> Modelling low order statistics of temperature increments in fully developed turbulence S. Bounoua, M. Ould-Rouis, P. Le Gal, F. Anselmet</p><p> 2049 -- 2057</p><p> Rotation effect on jet impingement heat transfer in smooth rectangular channels with heated target walls and radially outward cross flow J.A. Parsons, J. Han</p><p> 2059 -- 2071</p><p> Analyse experimentale des transferts de chaleur en espace annulaire etroit et rainure avec cylindre interieur tournant M. Bouafia, Y. Bertin, J.B. Saulnier, P. Ropert<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 2075 -- 2075</p><p> Volume (issue): 41 (12) 1998 Falling film evaporation of single component liquids A.A. Alhusseini, K. Tuzla, J.C. Chen</p><p> 1623 -- 1632</p><p> Numerical prediction of turbulent mixed convection in a concentric horizontal rotating annulus with low-Re two-equation models M. Char, Y. Hsu</p><p> 1633 -- 1643</p><p> Undercooling and contact resistance in stagnation-flow solidification on a semiinfinite substrate R.H. Rangel, X. Bian</p><p> 1645 -- 1653</p><p> Direct simulation of vapor bubble growth S.W.J. Welch</p><p> 1655 -- 1666</p><p> Onset and effects of instabilities from unstable stratification of density on mass transfer in channel shear layers at low Reynolds numbers P.M. Ligrani, S. Gupta, J.C. Giddings<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 1667 -- 1679</p><p> Turbulent natural convection coupled with thermal radiation in large vertical channels with asymmetric heating X. Cheng, U. Muller</p><p> 1681 -- 1692</p><p> Mass transfer to regular packings at low Reynolds numbers and under natural convection M.d.C. Rey, P. Glasserman, U. Bohm</p><p> 1693 -- 1706</p><p> A transient inverse two-dimensional geometry problem in estimating timedependent irregular boundary configurations C. Huang, C. Tsai</p><p> 1707 -- 1718</p><p> The behavior of a fire-protection foam exposed to radiant heating C.F. Boyd</p><p> 1719 -- 1728</p><p> C.F. Boyd Effect of Sherwood number on critical constants of diffusion A. Sagiv, A. Brosh, G.Z. Ecker<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 1729 -- 1738</p><p> Transition to turbulent flow in curved and straight channels with heat transfer at high Dean numbers P.M. Ligrani, C.R. Hedlund</p><p> 1739 -- 1748</p><p> Parametric analysis of direct contact evaporation process in a bubble column M. Song, A. Steiff, P.-M. Weinspach</p><p> 1749 -- 1758</p><p> The use of the Brinkman number for single phase forced convective heat transfer in microchannels C.P. Tso, S.P. Mahulikar</p><p> 1759 -- 1769</p><p> The flow and heat transfer in the wedge-shaped liquid film formed during the growth of a vapour bubble J. Mitrovic</p><p> 1771 -- 1785</p><p> The effective Reynolds number of a heated cylinder F. Dumouchel, J.C. Lecordier, P. Paranthoen<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 1787 -- 1794</p><p> Turbulent heat and fluid flow in a passage disturbed by detached perforated ribs of different heights T. Liou, S. Chen</p><p> 1795 -- 1806</p><p> Fuel oil evaporation in swirling hot gas streams Z. Baifang, E. Van den Bulck</p><p> 1807 -- 1820</p><p> Dehumidification of air flow through cooling at sub-freezing temperatures C. Housiadas, K. Schrader, Y. Drossinos</p><p> 1821 -- 1831</p><p> The influence of higher-order effects on the linear instability of thermal boundary layer flow in porous media L. Storesletten, D.A.S. Rees</p><p> 1833 -- 1843</p><p> Prediction of heat transfer in an axisymmetric turbulent jet impinging on a flat plate M. Behnia, S. Parneix, P.A. Durbin<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 1845 -- 1855</p><p> Natural convection heat transfer from complex surface W.M. Lewandowski, J.M. Khubeiz, P. Kubski, H. Bieszk, T. Wilczewski, S. Szymanski</p><p> 1857 -- 1868</p><p> Minimum heat to environment and entropy W. Liqiu</p><p> 1869 -- 1871</p><p> Volume (issue): 41 (11) 1998 Heat and mass transfer bibliography--CIS works O.G. Martynenko</p><p> 1371 -- 1384</p><p> Approche num'erique du transfert thermique convectif pour un cylindre circulaire deformable S. Hanchi, R. Askovic</p><p> 1385 -- 1396</p><p> Heat and mass transfer across tall cavities filled with gas-vapour mixtures: the fully 1397 -- 1403 developed regime G.D. McBAIN<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> G.D. McBAIN The diffusion and P1 approximations for modeling buoyant flow of an optically thick fluid J.J. Derby, S. Brandon, A.G. Salinger</p><p> 1405 -- 1415</p><p> Transitions and chaos for free convection in a rotating porous layer P. Vadasz, S. Olek</p><p> 1417 -- 1435</p><p> Shape factors for conductive heat flow in circular and quadratic cross-sections M. Nickolay, L. Fischer, H. Martin</p><p> 1437 -- 1444</p><p> Experimental study of unsteady thermal characteristics and rotation induced stabilization of air convection in a bottom heated rotating vertical cylinder Y.T. Ker, Y.H. Li, T.F. Lin</p><p> 1445 -- 1458</p><p> Un modele simplifie de transfert de chaleur et de masse dans le systeme sol-planteatmosphere M. Saighi, C. Moyne</p><p> 1459 -- 1471<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> A network thermodynamic analysis of the heat pipe Z.J. Zuo, A. Faghri</p><p> 1473 -- 1484</p><p> Numerical and experimental study of swirling flow in a model combustor J.L. Xia, G. Yadigaroglu, Y.S. Liu, J. Schmidli, B.L. Smith</p><p> 1485 -- 1497</p><p> Thermocapillary convection in two-layer systems Q.S. Liu, B. Roux, M.G. Velarde</p><p> 1499 -- 1511</p><p> A Galerkin finite-element study of the onset of double-diffusive convection in an inclined porous enclosure M. Mamou, P. Vasseur, E. Bilgen</p><p> 1513 -- 1529</p><p> Influence of radial seepage on temperature distribution around a cylindrical cavity in a porous medium J. Brown, A. Vardy, Z. Zhaoyang</p><p> 1531 -- 1541<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Comparison of low Reynolds number k- turbulence models in predicting heat transfer rates for pipe flow C. Hrenya, S. Miller, T. Mallo, J. Sinclair</p><p> 1543 -- 1547</p><p> Transient heat transfer in batch thermal reactors for silicon wafer processing Y. Fan, T. Qiu</p><p> 1549 -- 1557</p><p> Transition to oscillatory natural convection of cold water in a vertical annulus C.J. Ho, F.J. Tu</p><p> 1559 -- 1572</p><p> Application of wide band radiation models to non-homogeneous combustion systems P.S. Cumber, M. Fairweather, H.S. Ledin</p><p> 1573 -- 1584</p><p> Simultaneous determination of the thermal diffusivity of semiconductor lasers and resistance of their adhesive joints V. Lepaludier, Y. Scudeller</p><p> 1585 -- 1599<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Oscillatory double-diffusive convection in a rectangular enclosure with combined horizontal temperature and concentration gradients T. Nishimura, M. Wakamatsu, A.M. Morega</p><p> 1601 -- 1611</p><p> Finite element analysis of mixed convection over in-line tube bundles Y.T.K. Gowda, P.A.A. Narayana, K.N. Seetharamu</p><p> 1613 -- 1619</p><p> A continuum model for the transport of heat, mass and momentum in a deformable, multicomponent mush, undergoing solid-liquid phase change M.D. Jackson, M.J. Cheadle</p><p> 1621 -- 1621</p><p> Volume (issue): 41 (10) 1998 Analytical study of the effect of natural convection on cryogenic pipe freezing A.C. Keary, R.J. Bowen</p><p> 1129 -- 1138</p><p> Unsteady heat transfer and velocity of a cylinder in cross flow--I. Low freestream turbulence J.W. Scholten, D.B. Murray</p><p> 1139 -- 1148<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Unsteady heat transfer and velocity of a cylinder in cross flow--II. High freestream turbulence J.W. Scholten, D.B. Murray</p><p> 1149 -- 1156</p><p> Numerical modelling of turbulent heat transfer from discrete heat sources in a liquid-cooled channel G.P. Xu, K.W. Tou, C.P. Tso</p><p> 1157 -- 1166</p><p> Void fraction measurements in boiling cryogenic mixtures using gamma densitometer R. B_e</p><p> 1167 -- 1175</p><p> Melting and resolidification of a substrate in contact with a molten metal: operational maps S.-P. Wang, G.-X. Wang, E.F. Matthys</p><p> 1177 -- 1188</p><p> Heat transfer to bubbles under a horizontal tube K. Cornwell, I.A. Grant</p><p> 1189 -- 1197<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> The storage capacity of a harmonically heated slab revisited E. Magyari, B. Keller</p><p> 1199 -- 1204</p><p> Turbulent developing convective heat transfer in a tube for fluids near the critical point H.L. Sang, J.R. Howell</p><p> 1205 -- 1218</p><p> Time-difference schemes with spectral-like resolution L. Yao</p><p> 1219 -- 1222</p><p> A semiquantitative theory of convective heat transfer in a heat-generating fluid L.A. Bolshov, P.S. Kondratenko, V.F. Strizhov</p><p> 1223 -- 1227</p><p> Etude des transferts couples de chaleur et de masse dans un lit fixe de reactif solide non isotherme et non isobare R. Mir, A. Bendou, Z. Zrikem, A. Gonzalez</p><p> 1229 -- 1241<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Heat transfer optimization in internally finned tubes under laminar flow conditions G. Fabbri</p><p> 1243 -- 1253</p><p> Compact analytical model for overall thermal resistance of bolted joints M.B.H. Mantelli, M.M. Yovanovich</p><p> 1255 -- 1266</p><p> Augmentation of convective heat transfer by a torsionally-oscillating endwall disk T.G. Lim, J.M. Hyun</p><p> 1267 -- 1277</p><p> Analyse experimentale des transferts de chaleur en espace annulaire etroit et rainure avec cylindre interieur tournant M. Bouafia, Y. Bertin, J.B. Saulnier, P. Ropert</p><p> 1279 -- 1291</p><p> Marangoni convection in binary drops in air cooled from below F.L.A. Ganzevles, C.W.M. Van der Geld</p><p> 1293 -- 1301<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Effect of baffle spacing on pressure drop and local heat transfer in shell-and-tube heat exchangers for staggered tube arrangement L. Huadong, V. Kottke</p><p> 1303 -- 1311</p><p> Friction, heat and mass transfer for paper drying S.A. Reardon, M.R. Davis, P.E. Doe</p><p> 1313 -- 1325</p><p> Weakly non-linear Marangoni instability in the presence of a magnetic field M. Hannaoui, G. Lebon</p><p> 1327 -- 1337</p><p> Three-dimensional analysis of heat transfer and thermophoretic particle deposition in OVD process K. Hong, S. Kang</p><p> 1339 -- 1346</p><p> Similarity of heat radiation from turbulent buoyant jets A.I. Bril, V.P. Kabashnikov, N.V. Kuzmina, V.M. Popov</p><p> 1347 -- 1356<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> The energy balance condition on the interface for phase change with thermal wave effect W. Lu</p><p> 1357 -- 1359</p><p> Prandtl number dependence of impingement heat transfer with circular freesurface liquid jets H. Sun, C.F. Ma, Y.C. Chen</p><p> 1360 -- 1363</p><p> Effect of variable fluid properties on impingement heat transfer with submerged circular jets H. Sun, C.F. Ma</p><p> 1363 -- 1366</p><p> Heat transfer between two opposed non-isothermal counter-rotating jets W.J. Sheu, N.C. Liou</p><p> 1367 -- 1369</p><p> Volume (issue): 41 (8-9) 1998 Three-dimensional mixed convection in a rotating multiple-pass square channel J.J. Hwang, D.Y. Lai Evaporation of solution droplets in spray pyrolysis Y. Hsuan-Fu, L. Wen-Haur</p><p> 979 -- 991 993 -- 1001<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Pool boiling of hydrocarbon mixtures on water R. B_e</p><p> 1003 -- 1011</p><p> Heat balance over the fluid-dynamic boundary layer of a circulating fluidized bed furnace C. Breitholtz, B. Leckner</p><p> 1013 -- 1024</p><p> A study of the flow field of a confined and submerged impinging jet</p><p> 1025 -- 1034</p><p> J.A. Fitzgerald, S.V. Garimella A continuum model for the transport of heat, mass and momentum in a deformable, multicomponent mush, undergoing solid-liquid phase change M.D. Jackson, M.J. Cheadle</p><p> 1035 -- 1048</p><p> Developing turbulent mixed convection in a horizontal circular tube with strip-type inserts H. Shou-Shing, L. Ming-Ho, W. Feng-Yu</p><p> 1049 -- 1063<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> High Peclet number mass transfer in the acoustic streaming flow between two concentric cylinders J.A. Bowman, D.T. Schwartz</p><p> 1065 -- 1074</p><p> Analytical model of induced electric current from a free convection loop placed in a transverse magnetic field N. Ghaddar</p><p> 1075 -- 1086</p><p> Conjugate heat transfer of a plate fin in a second-grade fluid flow H. Cheng-Hsing, H. Kai-Long</p><p> 1087 -- 1102</p><p> One-group interfacial area transport in vertical bubbly flow Q. Wu, S. Kim, M. Ishii, S.G. Beus</p><p> 1103 -- 1112</p><p> Transient natural convection in a vertical cylinder opened at the extremities and filled with a fluid saturated porous medium: validity of Darcy flow model and thermal boundary layer approximations K. Slimi, S. Ben Nasrallah, J.-P. Fohr</p><p> 1113 -- 1125<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 41 (6-7) 1998 Influence of liquid bridge volume on instability of floating half zone convection Q.S. Chen, W.R. Hu</p><p> 825 -- 837</p><p> Quantum molecular dynamics study of light-to-heat absorption mechanism in atomic systems M. Shibahara, S. Kotake</p><p> 839 -- 849</p><p> An experimental investigation of single-phase forced convection in microchannels T.M. Adams, S.I. Abdel-Khalik, S.M. Jeter, Z.H. Qureshi</p><p> 851 -- 857</p><p> Modeling of heat conduction within chamber walls for multidimensional internal combustion engine simulations L. Yong, R.D. Reitz</p><p> 859 -- 869</p><p> An asymptotic model of work roll heat transfer in strip rolling R.E. Johnson, R.G. Keanini</p><p> 871 -- 879<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> A multiphase formulation for fire propagation in heterogeneous combustible media M. Larini, F. Giroud, B. Porterie, J.-C. Loraud</p><p> 881 -- 897</p><p> Experimental studies of heat transfer and fluid flow across corrugated-undulated heat exchanger surfaces J.A. Stasiek</p><p> 899 -- 914</p><p> Analysis and modeling of buoyancy-generated turbulence using numerical data S.S. Girimaji, S. Balachandar</p><p> 915 -- 929</p><p> Modelling of effective thermal conductivity for a nonhomogeneous anisotropic porous medium S.L. Lee, J.H. Yang</p><p> 931 -- 937</p><p> The mass transfer and stability in systems with large concentration gradients--I. Mass transfer kinetics Chr. Boyadjiev, I. Halatchev</p><p> 939 -- 944<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> The mass transfer and stability in systems with large concentration gradients--II. Hydrodynamic stability I. Halatchev, Chr. Boyadjiev</p><p> 945 -- 949</p><p> Creation of unstable zones in metals under dynamic loading S.K. Andilevko, E.A. Doroshkevich, V.A. Shilkin, S.M. Usherenko</p><p> 951 -- 956</p><p> A hydrodynamic model of super-deep penetration of a solid axisymmetric particle into a semi-infinite metallic target S.K. Andilevko</p><p> 957 -- 962</p><p> On the heat balance during double-gated, modulated-pressure injection moulding T. Zhang, J.R.G. Evans, M.J. Bevis</p><p> 963 -- 974</p><p> A critical heat flux correlation for droplet impact cooling at low Weber numbers and various ambient pressures W.M. Healy, P.J. Halvorson, J.G. Hartley, S.I. Abdel-Khalik</p><p> 975 -- 978<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 41 (4-5) 1998 Professor Donald K. Edwards on his 65th birthday 663 -- 664 H. Buchberg, I. Catton, S.E. Elghobashi, J.P. Hartnett, E.L. Knuth, A.F. Mills, W.J. Minkowycz, R.H. Rangel The correction to take account of variable property effects on turbulent forced convection to water in a pipe O. Buyukalaca, J.D. Jackson</p><p> 665 -- 669</p><p> Numerical study of heat transfer from an impinging jet P.R. Voke, G. Shian</p><p> 671 -- 680</p><p> Analytic analysis of heat loss from corners of buildings D. Tang, G.S. Saluja</p><p> 681 -- 689</p><p> Continuous fractional crystallization on a moving cooled belt P. Ossipov</p><p> 691 -- 697</p><p> Flame cooling by a curved burner wall R.M.M. Mallens, L.P.H. De Goey</p><p> 699 -- 707<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Numerical analysis of electromagnetic wave in a partially loaded microwave applicator S. Tada, R. Echigo, H. Yoshida</p><p> 709 -- 718</p><p> Experimental study of aspect ratio effects on longitudinal vortex flow in mixed convection of air in a horizontal rectangular duct M.Y. Chang, T.F. Lin</p><p> 719 -- 733</p><p> Vacuum assisted drying of hydrophilic plates: static drying experiments S.W. Montgomery, V.W. Goldschmidt, M.A. Franchek</p><p> 735 -- 744</p><p> Modelling of radiative heat transfer in enclosures with obstacles P.J. Coelho, J.M. Goncalves, M.G. Carvalho, D.N. Trivic</p><p> 745 -- 756</p><p> Homogeneous nucleation and macroscopic growth of gas bubble in organic solutions H. Kwak, Y.W. Kim</p><p> 757 -- 767<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> A study of supercooling phenomenon and freezing probability of water inside horizontal cylinders S. Chen, T. Lee</p><p> 769 -- 783</p><p> Heat transfer in Rayleigh-Benard convection with air in moderate size containers J.G. Maveety, J.R. Leith</p><p> 785 -- 796</p><p> A numerical study of natural convection immersion cooling of multiple heat sources in parallel interacting open-top cavities M. Behnia, A.A. Dehghan, H. Mishima, W. Nakayama</p><p> 797 -- 808</p><p> Where did the Dittus and Boelter equation come from? R.H.S. Winterton</p><p> 809 -- 810</p><p> Effect of fence thickness on pressures drop and heat transfer in a perforated-fenced channel J.H. Jenn, Y.L. Tong, T. Liou</p><p> 811 -- 816<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> An experimental study of heat transfer and friction characteristics of typical louver fin-and-tube heat exchangers C. Wang, K. Chi, Y. Chang, Y. Chang</p><p> 817 -- 822</p><p> Volume (issue): 41 (1) 1998 Alexander I. Leontiev on his 70th birthday 1 -- 2 V.E. Nakoryakov, S.V. Alekseenko, N.V. Medvetskaya, I.L. Mostinski, M.I. Osipov, E.P. Volchkov, Ju.A. Zeigavnik, J.P. Hartnett A note on the contact temperature during high-Peclet-number flow over a flat substrate P.S. Bashforth, J.G. Andrews, D.S. Riley</p><p> 3 -- 9</p><p> Free convection driven by an exothermic reaction on a vertical surface embedded in porous media B.J. Minto, D.B. Ingham, I. Pop</p><p> 11 -- 23</p><p> The solution of an inverse heat conduction problem subject to the specification of energies D. Lesnic, L. Elliott, D.B. Ingham</p><p> 25 -- 32</p><p> A two-dimensional model of the three-dimensional mixed convection flow of Newtonian and non-Newtonian fluids in a rectangular duct L. Elliott, D.B. Ingham, J.D. Wood</p><p> 33 -- 44<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Forced convection heat transfer from a flat plate: the conjugate problem M. Vynnycky, S. Kimura, K. Kanev, I. Pop</p><p> 45 -- 59</p><p> Developing mixed convection in a coiled heat exchanger J.J.M. Sillekens, C.C.M. Rindt, A.A. Van Steenhoven</p><p> 61 -- 72</p><p> Critical working frequency of reciprocating heat-transfer devices in axially reciprocating mechanisms L. Jian, C. Yiding, W. Qian</p><p> 73 -- 80</p><p> Modeling of heat transfer in dropwise condensation M. Abu-Orabi</p><p> 81 -- 87</p><p> Numerical simulation of melting of a horizontal substrate placed beneath a heavier liquid G. Son, V.K. Dhir</p><p> 89 -- 99<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Boiling nucleation during liquid flow in microchannels X.F. Peng, H.Y. Hu, B.X. Wang</p><p> 101 -- 106</p><p> Hyperbolic thermal waves in a solid cylinder with a non-stationary boundary heat flux A. Barletta, B. Pulvirenti</p><p> 107 -- 116</p><p> Mathematical model of self-sustaining combustion in inert porous medium with phase change under complex heat transfer V.V. Martynenko, R. Echigo, H. Yoshida</p><p> 117 -- 126</p><p> Notes on wave theory in heat conduction: a new boundary condition A.E. Kronberg, A.H. Benneker, K.R. Westerterp</p><p> 127 -- 137</p><p> Effect of lateral and extended fins on heat transfer in a circulating fluidized bed B.V. Reddy, P.K. Nag</p><p> 139 -- 146<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Cluster motion and particle-convective heat transfer at the wall of a circulating fluidized bed P.D. Noymer, L.R. Glicksman</p><p> 147 -- 158</p><p> Vapor and liquid flow in an asymmetrical flat plate heat pipe: a three-dimensional analytical and numerical investigation N. Zhu, K. Vafai</p><p> 159 -- 174</p><p> Homogenization procedure and Pade approximations in the theory of composite materials with parallelepiped inclusions I.V. Andrianov, G.A. Starushenko, S. Tokarzewski</p><p> 175 -- 181</p><p> Hamilton-Jacobi-Bellman analysis of irreversible thermal exergy S. Sieniutycz</p><p> 183 -- 195</p><p> Non-linear mass transfer and Marangoni effect in gas-liquid systems CHR. Boyadjiev, I. Halatchev</p><p> 197 -- 202<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Heat-transfer rate variations from the surface of a heater probe in a magnetofluidized 203 -- 208 bed V.L. Ganzha, S.C. Saxena Heat-transfer characteristics of magnetofluidized beds of pure and admixtures of magnetic and nonmagnetic particles V.L. Ganzha, S.C. Saxena</p><p> 209 -- 218</p><p> Simultaneously estimating the initial and boundary conditions in a two-dimensional hollow cylinder P. Hsu, Y. Yang, C. Chen</p><p> 219 -- 227</p><p> Transient response of the human limb to an external stimulus W. Roetzel, X. Yimin</p><p> 229 -- 239</p><p> Convection in a porous medium with inclined temperature gradient and vertical throughflow</p><p> 241 -- 243</p><p> D.A. Nield Stagnation-flow solidification on a finite thickness substrate X. Bian, R.H. Rangel</p><p> 244 -- 247<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Corrigenda</p><p> 249 -- 249</p><p> Volume (issue): 40 (18) 1997 Volume contents Author index</p><p> iii -- xxvii xxviii -- xxxi</p><p> Professor James R. Welty on the occasion of his retirement from full academic 4253 -- 4254 service C. Tien, R.J. Goldstein, M. Faghri, W.J. Minkowycz, J.P. Hartnett, L.R. Davis, G.M. Reistad, R.L. Adams, J.C. Dutton, A.E. Bergles Calcul des flux aux parois presentant des singularites H. Sadat, P. Salagnac</p><p> 4255 -- 4262</p><p> Mass-transfer to a channel wall downstream of a cylinder J.D. Yang, A. Shehata, V. Modi, A.C. West</p><p> 4263 -- 4271</p><p> Modeling of multicomponent diffusion in high temperature flows M. Desilets, P. Proulx, G. Soucy</p><p> 4273 -- 4278<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Fin efficiency and mechanisms of heat exchange through fins in multi-stream platefin heat exchangers: development and application of a rating algorithm B.S.V. Prasad</p><p> 4279 -- 4288</p><p> Effect of the pore size distribution on the separation factor of membranes used as barriers for isotopic separation by gaseous diffusion D.A. Serrano, H.S. Wio</p><p> 4289 -- 4294</p><p> Local heat transfer and recovery factor with impinging free-surface circular jets of transformer oil C.F. Ma, Q. Zheng, S.Y. Ko</p><p> 4295 -- 4308</p><p> Formation of a liquid jet after detachment of a vapour bubble J. Mitrovic</p><p> 4309 -- 4317</p><p> Obstruction of pipelines due to paraffin deposition during the flow of crude oils F.S. Ribeiro, P.R.S. Mendes, S.L. Braga</p><p> 4319 -- 4328<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Natural convection heat transfer from an isothermal vertical surface to a fluid saturated thermally stratified porous medium D. Angirasa, G.P. Peterson</p><p> 4329 -- 4335</p><p> Flow control in a subcooled tube: an experimental investigation of the effects of crust formation J.S. Pitsillos, Y.L. Yeow, N.B. Gray</p><p> 4337 -- 4343</p><p> Single-phase heat transfer in micro-fin tubes L.J. Brognaux, R.L. Webb, L.M. Chamra, B.Y. Chung</p><p> 4345 -- 4357</p><p> A one-dimensional model for frost formation on a cold flat surface K. Lee, W. Kim, T. Lee</p><p> 4359 -- 4365</p><p> Model of the transient stratified flow into a chilled-water storage tank K.O. Homan, S.L. Soo</p><p> 4367 -- 4377<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> The influence of non-constant diffusivities on solar ponds stability M. Giestas, A. Joyce, H. Pina</p><p> 4379 -- 4391</p><p> Heat transfer analysis of stratified flow in rotating heat pipes with cylindrical and stepped walls L. Lin, A. Faghri</p><p> 4393 -- 4404</p><p> A three-dimensional simulation of coupled turbulent flow and macroscopic solidification heat transfer for continuous slab casters S.H. Seyedein, M. Hasan</p><p> 4405 -- 4423</p><p> Melting heat transfer characteristics of a horizontal ice cylinder immersed in quiescent saline water M. Yamada, S. Fukusako, T. Kawanami, C. Watanabe</p><p> 4425 -- 4435</p><p> Boiling heat transfer phenomena from microporous and porous surfaces in saturated FC-72 J.Y. Chang, S.M. You</p><p> 4437 -- 4447<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Enhanced boiling heat transfer from microporous surfaces: effects of a coating composition and method J.Y. Chang, S.M. You</p><p> 4449 -- 4460</p><p> An aquifer-well thermal and fluid dynamic model for downhole heat exchangers with a natural convection promoter A. Carotenuto, C. Casarosa, M. Dell'Isola, L. Martorano</p><p> 4461 -- 4472</p><p> The use of generalized configuration factors for calculating the radiant interchange between nondiffuse surfaces H. Brockmann</p><p> 4473 -- 4486</p><p> Thermal transient analysis of thin film multilayers heated by pulsed laser N. Angelucci, N. Bianco, O. Manca</p><p> 4487 -- 4491</p><p> Volume (issue): 40 (17) 1997 Publisher's announcement K. Lambert</p><p> 3995 -- 3995<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> International Journal of Heat and Mass Transfer 3997 -- 3998 R. Viskanta, C.L. Tien, A. Bejan, P. Cheng, D.M. France, A. Haji-Sheikh, J.P. Hartnett, T.F. Jr Irvine, O.G. Martynenko, E.M. Sparrow Heat transfer during asymmetrical collision of thermal waves in a thin film Z. Tan, W. Yang</p><p> 3999 -- 4006</p><p> Effects of heater surface orientation on the critical heat flux--I. An experimental evaluation of models for subcooled pool boiling M.J. Brusstar, H. Jr Merte, R.B. Keller, B.J. Kirby</p><p> 4007 -- 4019</p><p> Effects of heater surface orientation on the critical heat flux--II. A model for pool and forced convection subcooled boiling M.J. Brusstar, H. Jr Merte</p><p> 4021 -- 4030</p><p> Mechanisms of vibrational control of heat transfer in a liquid bridge</p><p> 4031 -- 4042</p><p> D. Lyubimov, T. Lyubimova, B. Roux Experimental route to heat conduction beyond the Fourier equation P. Guillemet, J.P. Bardon, C. Rauch</p><p> 4043 -- 4053<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Experimental study on local heat transfer with liquid impingement flow in twodimensional micro-channels Y. Zhuang, C.F. Ma, M. Qin</p><p> 4055 -- 4059</p><p> Double diffusive natural convection in a square enclosure with heat and mass diffusive walls V.A.F. Costa</p><p> 4061 -- 4071</p><p> Numerical calculation of the effect of deposit formation on heat-exchanger efficiency D. Bouris, G. Bergeles</p><p> 4073 -- 4084</p><p> Rapid solidification within the framework of a hyperbolic conduction model A.M. Mullis</p><p> 4085 -- 4094</p><p> Thermal receptivity of unstable laminar flow with heat transfer H. Herwig, Y. Xueyi</p><p> 4095 -- 4103<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Convection in a long cavity with differentially heated end walls B. Boehrer</p><p> 4105 -- 4114</p><p> Transient inverse heat conduction problem solutions via Newton's method G.A. Dorai, D.A. Tortorelli</p><p> 4115 -- 4127</p><p> An experimental investigation of the dynamic behaviour of a shell-and-tube condenser J.-L. Alcock, D.R. Webb, T.W. Botsch, K. Stephan</p><p> 4129 -- 4135</p><p> Modelling and simulation of the dynamic behaviour of a shell-and-tube condenser T.W. Botsch, K. Stephan, J.-L. Alcock, D.R. Webb</p><p> 4137 -- 4149</p><p> Heat transfer in moving beds with a stagnant interstitial gas O. Molerus</p><p> 4151 -- 4159<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Thermal streaks regeneration in the wake of a disturbance in a turbulent boundary layer G. Hetsroni, A. Mosyak, L.P. Yarin</p><p> 4161 -- 4168</p><p> Estimation of thermal conductivity of thermoplastics under moulding conditions: an apparatus and an inverse algorithm T. Jurkowski, Y. Jarny, D. Delaunay</p><p> 4169 -- 4181</p><p> New logarithmic technique in the flash method M. Thermitus, M. Laurent</p><p> 4183 -- 4190</p><p> An extended Kays and Crawford turbulent Prandtl number model B. Weigand, J.R. Ferguson, M.E. Crawford</p><p> 4191 -- 4196</p><p> Enhancement of mass transfer coefficients in spiral films L. Broniarz-Press</p><p> 4197 -- 4208<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Pulsating flow and heat transfer in a pipe partially filled with a porous medium G. Zhixiong, Y.K. Seo, J.S. Hyung</p><p> 4209 -- 4218</p><p> Slug flow heat transfer in circular ducts with viscous dissipation and convective boundary conditions A. Barletta</p><p> 4219 -- 4228</p><p> Steam generation in porous media by volumetric ohmic heating C. Bouallou, G. Buzan, R. Meyrignac</p><p> 4229 -- 4238</p><p> Natural convection of micropolar fluids in an enclosure with heat sources T. Hsu, P. Hsu, S. Tsai</p><p> 4239 -- 4249</p><p> Time-dependent free convection motion and heat transfer in an infinite porous medium induced by a heated sphere T. Sano</p><p> 4251 -- 4251<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 40 (16) 1997 Heat transfer--a review of 1994 literature 3729 -- 3804 J.V.R. Heberlein, T.W. Simon, P.J. Strykowski, K.K. Tamma, T.H. Kuehn, A. Bar-Cohen, E.R.G. Eckert, D.L. Hofeldt, R.J. Goldstein, J.H. Davidson, W.E. Ibele, J. Bischof, S.V. Patankar, F. Kulacki Multiplicite des solutions en convection naturelle dans une geometrie repetitive A. Amahmid, M. Hasnaoui, P. Vasseur</p><p> 3805 -- 3818</p><p> Microscales of rotating turbulent flows V.S. Arpaci, S. Kao</p><p> 3819 -- 3826</p><p> Solidification of ternary metal alloys--I. Model development M.J.M. Krane, F.P. Incropera, D.R. Gaskell</p><p> 3827 -- 3835</p><p> Solidification of ternary metal alloys--II. Predictions of convective phenomena and solidification behavior in Pb-Sb-Sn alloys M.J.M. Krane, F.P. Incropera</p><p> 3837 -- 3847</p><p> Turbulent natural convection heat transfer in an asymmetrically heated, vertical parallel-plate channel A.G. Fedorov, R. Viskanta</p><p> 3849 -- 3860<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Developing turbulent convective heat transfer in helical pipes C.X. Lin, M.A. Ebadian</p><p> 3861 -- 3873</p><p> Solute redistribution limit in coarsening dendrite arms during binary alloy solidification H. Yoo, R. Viskanta</p><p> 3875 -- 3882</p><p> Nonisothermal extrusion flow of viscoplastic fluids with wall slip A. Lawal, D.M. Kalyon</p><p> 3883 -- 3897</p><p> Thermal instability during the melting process in an isothermally heated horizontal cylinder D.C. Jae, S.L. Joon, Y. Hoseon</p><p> 3899 -- 3907</p><p> Effect of tube-to-tube conduction on plate-fin and tube heat exchanger performance R. Romero-Mendez, M. Sen, K.T. Yang, R.L. McClain</p><p> 3909 -- 3916<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Heat transfer through a high temperature superconducting current lead at cryogenic temperatures D.P. Sekulic, F.J. Edeskuty, Z. Uzelac</p><p> 3917 -- 3926</p><p> Influence de la diffusion longitudinale sur le transfert de matiere fluide-paroi en ecoulement laminaire non-etabli dans un espace annulaire S.R. de Farias Neto, P. Legentilhomme, J. Legrand</p><p> 3927 -- 3935</p><p> A numerical simulation of the solidification process of a binary mixture in a Vshaped enclosure W.K. Jr Jones, S.E. Dezego, M.A. Ebadian, Z.F. Dong</p><p> 3937 -- 3946</p><p> A new method for solving the inverse conduction problem in steady heat flux measurement F. Zhaohong, X. Donglai, D. Nairen, J.R. Grace, C.J. Lim</p><p> 3947 -- 3953</p><p> Natural convective heat transfer in a fluid saturated variable porosity medium P. Nithiarasu, K.N. Seetharamu, T. Sundararajan</p><p> 3955 -- 3967<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Analysis of vapor back flow in single-pass air-cooled condensers G. Fabbri</p><p> 3969 -- 3979</p><p> Numerical analysis of heat transfer and fluid flow in a three-dimensional wavy-fin and tube heat exchanger J. Jang, L. Chen</p><p> 3981 -- 3990</p><p> Mathematical modelling of the performance of non-isothermal membrane reactors M.K. Koukou, G. Chaloulou, N. Papayannakos, N.C. Markatos</p><p> 3993 -- 3993</p><p> Volume (issue): 40 (15) 1997 A new method for determining binary diffusion coefficients in dilute condensable vapors C.C.M. Luijten, K.J. Bosschaart, M.E.H. Van Dongen</p><p> 3497 -- 3502</p><p> Using the finite element method to compute the influence of complex porosity and inclusion structures on the thermal and electrical conductivity K. Bakker</p><p> 3503 -- 3511<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Time-varying heat transfer coefficients between tube-shaped casting and metal mold T. Kim, Z. Lee</p><p> 3513 -- 3525</p><p> Convection mixte defavorable et conjuguee dans un tube vertical G. Laplante, M.A. Bernier</p><p> 3527 -- 3536</p><p> A quasi-three-dimensional approach to simulate the two-phase fluid flow and heat transfer in condensers Z. Chao, A. Bokil</p><p> 3537 -- 3546</p><p> Predicting stochastic features of vapor bubble detachment in flow boiling J.F. Klausner, R. Mei, L.Z. Zeng</p><p> 3547 -- 3552</p><p> Heat transfer characteristics of a rectangular natural circulation loop containing water near its density extreme C.J. Ho, S.P. Chiou, C.S. Hu</p><p> 3553 -- 3558<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Interfacial shear models and their required asymptotic form for annular/stratified film condensation flows in inclined channels and vertical pipes A. Narain, Y. Guang, L. Qingyu</p><p> 3559 -- 3575</p><p> The classical problem of convective heat transfer in laminar flow over a thin finite thickness plate with uniform temperature at the lower surface</p><p> 3577 -- 3580</p><p> thickness plate with uniform temperature at the lower surface C. Trevino, G. Becerra, F. Mendez Simple models of spectral radiative properties of carbon dioxide Y.U. Khan, D.A. Lawson, R.J. Tucker</p><p> 3581 -- 3593</p><p> Heat and mass transfer in film absorption in the presence of non-absorbable gases G. Grossman, K. Gommed</p><p> 3595 -- 3606</p><p> An analytical study of the optimum dimensions of rectangular fins and cylindrical pin fins R. Yeh</p><p> 3607 -- 3615<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> New correlations for mixed turbulent natural and forced convection heat transfer in vertical tubes T. Aicher, H. Martin</p><p> 3617 -- 3626</p><p> Fluid flow and heat transfer in a pipe with wall suction D. Sofialidis, P. Prinos</p><p> 3627 -- 3640</p><p> Effect of wall conduction on natural convection flow of micropolar fluids along a flat plate M. Char, C. Chang</p><p> 3641 -- 3652</p><p> Effect of free-stream fluctuations on laminar forced convection from a straight tube H.M. Badr</p><p> 3653 -- 3662</p><p> The influence of an advecting vortex on the heat transfer to a liquid droplet M. Masoudi, W.A. Sirignano</p><p> 3663 -- 3673<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> A transient micro-convection model of nucleate pool boiling S.I. Haider, R.L. Webb</p><p> 3675 -- 3688</p><p> Laminar convective heat transfer of a Bingham plastic in a circular pipe--II. Numerical approach--hydrodynamically developing flow and simultaneously developing flow M. Taegee, G.C. Hyoung, Y.Y. Jung, C. Haecheon</p><p> 3689 -- 3701</p><p> An experimental study of heat transfer in a simulated turbine blade cooling passage 3703 -- 3716 W.D. Morris, S.W. Chang Free convective mass transfer at up-pointing pyramidal electrodes J. Krysa, A.A. Wragg</p><p> 3717 -- 3727</p><p> Volume (issue): 40 (14) 1997 Experimental investigation of mass transfer in a grid-generated turbulent flow using combined optical methods F. Lemoine, M. Wolff, M. Lebouche</p><p> 3255 -- 3266</p><p> Energy saving in chaotic laminar mixing F. Raynal, J. Gence</p><p> 3267 -- 3273<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Effect of positioning the axis of a lamellar rotor model of a sucking and forcing regenerative exchanger on the intensity of convective mass/heat transfer B. Bieniasz, K. Kiedrzynski, R. Smusz, J. Wilk</p><p> 3275 -- 3282</p><p> Convective heat transfer due to thermocapillary convection with a strong magnetic field parallel to the free surface T.E. Morthland, J.S. Walker</p><p> 3283 -- 3291</p><p> Laminar forced convection in the entrance region of helical pipes C.X. Lin, P. Zhang, M.A. Ebadian</p><p> 3293 -- 3304</p><p> Local convective heat transfer to submerged pulsating jets E.C. Mladin, D.A. Zumbrunnen</p><p> 3305 -- 3321</p><p> Three-dimensional natural convective flow in a vertical annulus with longitudinal fins R. Kumar</p><p> 3323 -- 3334<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Time-averaged and reverse transition in oscillatory air convection in a differentially heated rotating cubic cavity Y.T. Ker, T.F. Lin</p><p> 3335 -- 3349</p><p> A generalized thermal modeling for laser drilling process--I. Mathematical modeling and numerical methodology R.K. Ganesh, A. Faghri, Y. Hahn</p><p> 3351 -- 3360</p><p> A generalized thermal modeling for laser drilling process--II. Numerical simulation and results R.K. Ganesh, A. Faghri, Y. Hahn</p><p> 3361 -- 3373</p><p> Modelling of steady-state two-phase bubbly flow through a sudden enlargement A. Attou, M. Giot, J.M. Seynhaeve</p><p> 3375 -- 3385</p><p> Double-diffusive convection in a rotating cylinder with heating from below L. Jinho, H.K. Lin, T.H. Myung</p><p> 3387 -- 3394<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Free and forced convection laminar film condensation on horizontal elliptical tubes S.B. Memory, V.H. Adams, P.J. Marto</p><p> 3395 -- 3406</p><p> Measurement and interpretation of growth of binary droplets suspended in a water-n-propanol-nitrogen mixture by means of a piston-expansion-tube T. Rodemann, F. Peters</p><p> 3407 -- 3417</p><p> Ray effect in ray tracing method for radiative heat transfer B. Li, W. Tao, R. Liu</p><p> 3419 -- 3426</p><p> Analyse des vitesse et temperature de l'air en convection naturelle dans une cavite carree differentiellement chauffee a Ra = 1.69 _ 109 S. Mergui, F. Penot</p><p> 3427 -- 3441</p><p> A new analytical solution for heat transfer in the entrance region of ducts: hydrodynamically developed flows of power-law fluids with constant wall temperature K. Khellaf, G. Lauriat</p><p> 3443 -- 3447<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Oscillatory natural convection of water near the density extremum at high Rayleigh numbers T. Nishimura, Y. Hayashida, M. Mineoka, A. Wake</p><p> 3449 -- 3465</p><p> Variational thermomechanical processes and chemical reactions in distributed systems S. Sieniutycz</p><p> 3467 -- 3485</p><p> Variational method for solving non-linear problems of unsteady-state heat conduction V.A. Bondarev</p><p> 3487 -- 3495</p><p> Volume (issue): 40 (13) 1997 Natural convection with unsaturated humid air in vertical cavities G.D. McBain</p><p> 3005 -- 3012</p><p> A general two-equation macroscopic turbulence model for incompressible flow in porous media B.V. Antohe, J.L. Lage</p><p> 3013 -- 3024<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Laminar convective heat transfer of a Bingham plastic in a circular pipe--I. Analytical approach--thermally fully developed flow and thermally developing flow (the Graetz problem extended) M. Taegee, Y.Y. Jung, C. Haecheon</p><p> 3025 -- 3037</p><p> A model for convective mass transport in liquid phase epitaxial growth of semiconductors S. Dost, Z. Qin, M. Kimura</p><p> 3039 -- 3047</p><p> A photothermal method with step heating for measuring the thermal diffusivity of anisotropic solids A. Griesinger, W. Hurler, M. Pietralla</p><p> 3049 -- 3058</p><p> Discrete element simulations for granular material flows: effective thermal conductivity and self-diffusivity M.L. Hunt</p><p> 3059 -- 3068</p><p> Natural convection along a wavy vertical plate to non-Newtonian fluids E. Kim</p><p> 3069 -- 3078<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Heat transfer and fluid flow in microchannels G.M. Mala, L. Dongqing, J.D. Dale</p><p> 3079 -- 3088</p><p> The effects of chaotic advection on heat transfer A. Mokrani, C. Castelain, H. Peerhossaini</p><p> 3089 -- 3104</p><p> Laminarization of turbulent gas flow inside a strongly heated tube S. Torii, W. Yang</p><p> 3105 -- 3117</p><p> Prevision a long terme de la reponse d'un stockage de chaleur sensible dans le sol J.Y. Desmons, R.B. Younes</p><p> 3119 -- 3134</p><p> Enhancing forced air convection heat transfer from an array of parallel plate fins using a heat pipe Z. Zhao, C.T. Avedisian</p><p> 3135 -- 3147<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Modeling of Darcy-Forchheimer drag for fluid flow across a bank of circular cylinders S.L. Lee, J.H. Yang</p><p> 3149 -- 3155</p><p> Conjugate natural convection heat transfer between two porous media separated by a horizontal wall F.J. Higuera</p><p> 3157 -- 3161</p><p> Vortex structure and heat transfer in the stagnation region of an impinging plane jet (simultaneous measurements of velocity and temperature fields by digital particle image velocimetry and laser-induced fluorescence)</p><p> 3163 -- 3176</p><p> jet (simultaneous measurements of velocity and temperature fields by digital particle image velocimetry and laser-induced fluorescence) J. Sakakibara, K. Hishida, M. Maeda Modelling of frost growth and densification R. Le Gall, J.M. Grillot, C. Jallut</p><p> 3177 -- 3187</p><p> Latent cold heat energy storage characteristics by means of direct-contact-freezing between oil droplets and cold water solution H. Inaba, K. Sato</p><p> 3189 -- 3200<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Natural convection of water-fine particle suspension in a rectangular cell M. Okada, T. Suzuki</p><p> 3201 -- 3208</p><p> Quantum molecular dynamics study on light-to-heat absorption mechanism: two metallic atom system M. Shibahara, S. Kotake</p><p> 3209 -- 3222</p><p> Comparison of theory and experiments for reflection from microcontoured surfaces D.W. Cohn, K. Tang, R.O. Buckius</p><p> 3223 -- 3235</p><p> Numerical analysis of InP solution growth by travelling heater method: transient response in the case of no heater movement S. Matsumoto, T. Maekawa, K. Takahashi</p><p> 3237 -- 3245</p><p> Analysis of hyperbolic heat conduction in a semi-infinite slab with surface convection P.J. Antaki</p><p> 3247 -- 3250<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Compressibility effect on the gas flow and heat transfer in a microtube Z.Y. Guo, X.B. Wu</p><p> 3251 -- 3254</p><p> Volume (issue): 40 (13) 1997 Natural convection with unsaturated humid air in vertical cavities G.D. McBain</p><p> 3005 -- 3012</p><p> A general two-equation macroscopic turbulence model for incompressible flow in porous media B.V. Antohe, J.L. Lage</p><p> 3013 -- 3024</p><p> Laminar convective heat transfer of a Bingham plastic in a circular pipe--I. Analytical approach--thermally fully developed flow and thermally developing flow (the Graetz problem extended) M. Taegee, Y.Y. Jung, C. Haecheon</p><p> 3025 -- 3037</p><p> A model for convective mass transport in liquid phase epitaxial growth of semiconductors S. Dost, Z. Qin, M. Kimura</p><p> 3039 -- 3047<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> A photothermal method with step heating for measuring the thermal diffusivity of anisotropic solids A. Griesinger, W. Hurler, M. Pietralla</p><p> 3049 -- 3058</p><p> Discrete element simulations for granular material flows: effective thermal conductivity and self-diffusivity M.L. Hunt</p><p> 3059 -- 3068</p><p> Natural convection along a wavy vertical plate to non-Newtonian fluids E. Kim</p><p> 3069 -- 3078</p><p> Heat transfer and fluid flow in microchannels G.M. Mala, L. Dongqing, J.D. Dale</p><p> 3079 -- 3088</p><p> The effects of chaotic advection on heat transfer A. Mokrani, C. Castelain, H. Peerhossaini</p><p> 3089 -- 3104<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Laminarization of turbulent gas flow inside a strongly heated tube S. Torii, W. Yang</p><p> 3105 -- 3117</p><p> Prevision a long terme de la reponse d'un stockage de chaleur sensible dans le sol J.Y. Desmons, R.B. Younes</p><p> 3119 -- 3134</p><p> Enhancing forced air convection heat transfer from an array of parallel plate fins using a heat pipe Z. Zhao, C.T. Avedisian</p><p> 3135 -- 3147</p><p> Modeling of Darcy-Forchheimer drag for fluid flow across a bank of circular cylinders S.L. Lee, J.H. Yang</p><p> 3149 -- 3155</p><p> Conjugate natural convection heat transfer between two porous media separated by a horizontal wall F.J. Higuera</p><p> 3157 -- 3161<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Vortex structure and heat transfer in the stagnation region of an impinging plane jet (simultaneous measurements of velocity and temperature fields by digital particle image velocimetry and laser-induced fluorescence) J. Sakakibara, K. Hishida, M. Maeda</p><p> 3163 -- 3176</p><p> Modelling of frost growth and densification R. Le Gall, J.M. Grillot, C. Jallut</p><p> 3177 -- 3187</p><p> Latent cold heat energy storage characteristics by means of direct-contact-freezing between oil droplets and cold water solution H. Inaba, K. Sato</p><p> 3189 -- 3200</p><p> Natural convection of water-fine particle suspension in a rectangular cell M. Okada, T. Suzuki</p><p> 3201 -- 3208</p><p> Quantum molecular dynamics study on light-to-heat absorption mechanism: two metallic atom system M. Shibahara, S. Kotake</p><p> 3209 -- 3222<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Comparison of theory and experiments for reflection from microcontoured surfaces D.W. Cohn, K. Tang, R.O. Buckius</p><p> 3223 -- 3235</p><p> Numerical analysis of InP solution growth by travelling heater method: transient response in the case of no heater movement S. Matsumoto, T. Maekawa, K. Takahashi</p><p> 3237 -- 3245</p><p> Analysis of hyperbolic heat conduction in a semi-infinite slab with surface convection P.J. Antaki</p><p> 3247 -- 3250</p><p> Compressibility effect on the gas flow and heat transfer in a microtube</p><p> 3251 -- 3254</p><p> Z.Y. Guo, X.B. Wu Volume (issue): 40 (12) 1997 Combined heat and mass transfer by natural convection with opposing buoyancy effects in a fluid saturated porous medium D. Angirasa, G.P. Peterson, I. Pop</p><p> 2755 -- 2773<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Mass transfer to local electrodes at wall and wall friction factor in decaying turbulent swirl flow S. Yapici, G. Yazici, C. Ozmetin, H. Ersahan, O. Comakli</p><p> 2775 -- 2783</p><p> Electrochemical mass transfer measurements in rough surface pipe flow: geometrically similar V-shaped grooves W. Zhao, O. Trass</p><p> 2785 -- 2797</p><p> Steady natural convection in a two-layer system of immiscible liquids A. Prakash, J.N. Koster</p><p> 2799 -- 2812</p><p> Effects of leading-edge roughness on fluid flow and heat transfer in the transitional boundary layer over a flat plate M.W. Pinson, T. Wang</p><p> 2813 -- 2823</p><p> Some aspects of the modelling of wood chips drying in superheated steam C. Fyhr, A. Rasmuson</p><p> 2825 -- 2842<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> High temperature convective drying of wood chips with air and superheated steam A. Johansson, C. Fyhr, A. Rasmuson</p><p> 2843 -- 2858</p><p> Towards a general numerical scheme for solidification systems C.R. Swaminathan, V.R. Voller</p><p> 2859 -- 2868</p><p> A similarity solution for the solidification of a multicomponent alloy V.R. Voller</p><p> 2869 -- 2877</p><p> Experimental evaluation of the onset of subcooled flow boiling at high liquid velocity and subcooling G.P. Celata, M. Cumo, A. Mariani</p><p> 2879 -- 2885</p><p> Numerical and analytical investigation of vapor flow in a disk-shaped heat pipe incorporating secondary flow N. Zhu, K. Vafai</p><p> 2887 -- 2900<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Effects of a geometric perturbation on buoyancy induced flow and heat transfer in a cylindrical annulus S.V. Iyer, K. Vafai</p><p> 2901 -- 2911</p><p> A free boundary problem related to laser beam fusion cutting: ODE approximation W. Schulz, V. Kostrykin, H. Zefferer, D. Petring, R. Poprawe</p><p> 2913 -- 2928</p><p> Critical heat flux in uniformly heated vertical tubes X. Cheng, F.J. Erbacher, U. Muller, F.G. Pang</p><p> 2929 -- 2939</p><p> Interferometric study of interaction of free convection with surface radiation in an L corner V.R. Rao, C. Balaji, S.P. Venkateshan</p><p> 2941 -- 2947</p><p> Investigation of the coupled heat transfer, fluid flow and the solute transport during the strip casting process A.V. Kuznetsov</p><p> 2949 -- 2961<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> The evaporation coefficient of water: a review I.W. Eames, N.J. Marr, H. Sabir</p><p> 2963 -- 2973</p><p> Unsteady conjugated mixed convection flow and heat transfer between two corotating discs W. Yan, K. Lee</p><p> 2975 -- 2988</p><p> Heat flux measurements in a turbulent boundary layer on a rough wall H.S. Shafi, R.A. Antonia, P.-A. Krogstad</p><p> 2989 -- 2993</p><p> Analysis of non-Darcian mixed convection from impermeable horizontal surfaces in porous media: the entire regime C. Chen</p><p> 2993 -- 2997</p><p> The use of modified Green's functions in unsteady heat transfer Z. Feng, E.E. Michaelides</p><p> 2997 -- 3002<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 40 (11) 1997 Heat transfer bibliography--Japanese works 1995 I. Tanasawa, S. Nishio, K. Suzuki</p><p> 2503 -- 2515</p><p> Transition of oscillatory floating half zone convection from Earth's gravity to microgravity Y.L. Yao, J.Z. Shu, J.C. Xie, F. Liu, W.R. Hu, A. Hirata, S.I. Nishizawa, M. Sakurai</p><p> 2517 -- 2524</p><p> Detailed heat transfer distributions in two-pass square channels with rib turbulators S.V. Ekkad, J. Han</p><p> 2525 -- 2537</p><p> Oxygen-enhanced/natural gas flame radiation C.E. Baukal, B. Gebhart</p><p> 2539 -- 2547</p><p> Metal-droplet deposition model including liquid deformation and substrate remelting R.H. Rangel, X. Bian</p><p> 2549 -- 2564<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Parameter ranges in binary solidification from vertical boundaries G. Amberg</p><p> 2565 -- 2578</p><p> Film boiling heat transfer of droplet streams and sprays J.D. Bernardin, I. Mudawar</p><p> 2579 -- 2593</p><p> Experimental study of natural convection in a model alloy with a miscibility gap S. Lunskens, J.N. Koster</p><p> 2595 -- 2605</p><p> Role of gas-phase reaction and gas-solid thermal nonequilibrium in reverse combustion M. Fatehi, M. Kaviany</p><p> 2607 -- 2620</p><p> Onset of thermally induced gas convection in mine wastes L. Ning, Z. Yiqiang</p><p> 2621 -- 2636<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Thermal boundary resistance for thin-film high-Tc superconductors at varying interfacial temperature drops</p><p> 2637 -- 2645</p><p> interfacial temperature drops M. Kelkar, P.E. Phelan, B. Gu Numerical study of recovery effect and impingement heat transfer with submerged circular jets of large Prandtl number liquid X.C. Lee, C.F. Ma, Q. Zheng, Y. Zhuang, Y.Q. Tian</p><p> 2647 -- 2653</p><p> Two-fluid modelling of inverted annular film boiling N. Hammouda, D.C. Groeneveld, S.C. Cheng</p><p> 2655 -- 2670</p><p> Investigation on a simulation model of floating half zone convection--II. Experiment J.H. Han, Y.R. Zhou, W.R. Hu</p><p> 2671 -- 2677</p><p> Experimental study of transient natural convection in an inclined rectangular enclosure T.D. Upton, D.W. Watt</p><p> 2679 -- 2690<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Heat transfer at the boundary between a porous medium and a homogeneous fluid J.A. Ochoa-Tapia, S. Whitaker</p><p> 2691 -- 2707</p><p> Conjugate heat transfer from a small heated strip K.D. 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Huang</p><p> 2261 -- 2272</p><p> Mixed convective heat and moisture transfer from a horizontal furry cylinder in a transverse wind S. Budaraju, W.E. Stewart, W.P. Porter</p><p> 2273 -- 2281</p><p> Three-dimensional analytical temperature field and its application to solidification characteristics in high- or low-power-density-beam welding P.S. Wei, C.Y. Ho, M.D. Shian, C.L. Hu</p><p> 2283 -- 2292</p><p> Simulation and measurement of a vertical Bridgman growth system for -NiAl crystal H. Ouyang, W. Shyy, V.I. Levit, M.J. Kaufman</p><p> 2293 -- 2305</p><p> Heat transfer enhancement mechanisms in inline and staggered parallel-plate fin heat exchangers L.W. Zhang, S. Balachandar, D.K. Tafti, F.M. 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Hewitt</p><p> 2445 -- 2460</p><p> Heat transfer in a tube with pulsating flow and constant heat flux T. Moschandreou, M. Zamir</p><p> 2461 -- 2466</p><p> Discrete-ordinate solutions for radiative transfer in a cylindrical enclosure with Fresnel boundaries W. Chih-Yang, L. Bo-Ting</p><p> 2467 -- 2475</p><p> Linear stability study of waviness effect on film condensation with nonuniform surface tension C. Gung-Huei, C. Jyh-Chen</p><p> 2477 -- 2482</p><p> Correction functions for a wide range of measured substrate temperature histories A.E. 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Hyung</p><p> 2486 -- 2489</p><p> Theoretical study of droplet impingement on a solid surface below the Leidenfrost temperature J. Fukai, Y. Shiiba, O. Miyatake</p><p> 2490 -- 2492</p><p> The shape factor of conduction in a multiple channel slab and the effect of nonuniform temperatures F.L.A. Ganzevles, C.W.M. van der Geld</p><p> 2493 -- 2498</p><p> Turbulence model for flow through porous media D.A. Nield</p><p> 2499 -- 2499</p><p> Authors' reply T. Masuoka, Y. Takatsu</p><p> 2499 -- 2500<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Dynamics of Multiphase Flows across Interfaces W.B.J. Zimmerman</p><p> 2501 -- 2501</p><p> Volume (issue): 40 (9) 1997 Heat transfer and solidification in planar-flow melt-spinning: high wheelspeeds J.K. Carpenter, P.H. Steen</p><p> 1993 -- 2007</p><p> Boiling heat transfer of a ternary refrigerant mixture inside a horizontal smooth tube L. Zhang, E. Hihara, T. Saito, J. Oh</p><p> 2009 -- 2017</p><p> Theoretical and experimental studies of laminar mixed convection in water pipe flow with density inversion effect G.J. Hwang, C.W. Tsai</p><p> 2019 -- 2033</p><p> Gas segregation during solidification processes M.V.A. Bianchi, R. 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Warrington</p><p> 1817 -- 1823<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Numerical prediction of lock-on effect on convective heat transfer from a transversely oscillating circular cylinder C. Cheng, J. Hong, A. Win</p><p> 1825 -- 1834</p><p> Acoustic power and heat fluxes in the thermoacoustic effect due to a travelling plane wave A.O. Santillan, R.R. Boullosa</p><p> 1835 -- 1838</p><p> Numerical analysis of turbulent pipe flow in a transverse magnetic field H.-C. Ji, R.A. Gardner</p><p> 1839 -- 1851</p><p> Momentum and heat transfer on a continuous moving surface in a power law fluid T.G. Howell, D.R. Jeng, K.J. De Witt</p><p> 1853 -- 1861</p><p> Potentialite d'instabilites dans un systeme thermique comportant deux temperatures de reference C. Abid, F. Papini</p><p> 1863 -- 1874<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Modelling the behaviour of stratified liquid natural gas in storage tanks: a study of the rollover phenomenon S. Bates, D.S. Morrison</p><p> 1875 -- 1884</p><p> Forced convection in an air-filled bayonet tube during the laminar-turbulent transition H. Minhas, G.S.H. Lock</p><p> 1885 -- 1894</p><p> Energy absorption in a conical cavity truncated by spherical cap subject to a focused high-intensity beam C.Y. Ho, P.S. Wei</p><p> 1895 -- 1905</p><p> Flow visualization and numerical simulation of transverse and mixed vortex roll formation in mixed convection of air in a horizontal flat duct M.Y. Chang, C.H. Yu, T.F. Lin</p><p> 1907 -- 1922</p><p> Prediction in stratified gas-liquid co-current flow in horizontal pipelines P.L. Spedding, N.P. Hand</p><p> 1923 -- 1935<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Second-law analysis on a pin-fin array under crossflow W.W. Lin, D.J. Lee</p><p> 1937 -- 1945</p><p> Asymptotic analysis of bipropellant droplet burning for the reaction A + B -&gt; 2C A. Orlov</p><p> 1947 -- 1950</p><p> Homogeneous turbulence evolution in stably stratified flow--I. Internal gravity waves at low inverse Froude numbers V.A. Babenko</p><p> 1951 -- 1961</p><p> Homogeneous turbulence evolution in stably stratified flow--II. Asymptotic regimes of large evolution time at low inverse Froude numbers V.A. Babenko</p><p> 1963 -- 1976</p><p> Thermoacoustic phenomena at boiling subcooled liquid in channels H.F. Smirnov, V.V. Zrodnikov, I.L. Boshkova</p><p> 1977 -- 1983<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Mesure et controle par electrochimie d'une convection d'origine solutale a une interface entre deux liquides en presence ou non d'un champ magnetique</p><p> 1985 -- 1989</p><p> F. Debray, L. Davoust, Y. Fautrelle, J. Etay Fouling of Heat Exchangers. P.J. Heggs</p><p> 1991 -- 1991</p><p> Volume (issue): 40 (7) 1997 Analysis of radiative heating of a rocket plume base with the finite-volume method W.B. Seung, Y.K. Man</p><p> 1501 -- 1508</p><p> Numerical study of a buoyancy-induced flow along a vertical plate with discretely heated integrated circuit packages Y.W. H., F. Penot, J.B. Sauliner</p><p> 1509 -- 1520</p><p> Numerical simulation of two- and three-dimensional free convection flows in a horizontal porous annulus using a pressure and temperature formulation M.C. Charrier-Mojtabi</p><p> 1521 -- 1533<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Instabilite thermo-convective dans un cylindre avec source volumique de chaleur F.W. K., H. Combeau, J.P. Brancher</p><p> 1535 -- 1543</p><p> A genetic algorithm for inverse radiation problems Y.L. H., Y.Y. C.</p><p> 1545 -- 1549</p><p> Time-dependent free convection motion and heat transfer in an infinite porous medium induced by a heated sphere R. Ganapathy</p><p> 1551 -- 1557</p><p> A model for thermocouple sensitivity during microwave heating W.E. Olmstead, M.E. Brodwin</p><p> 1559 -- 1565</p><p> Effects of a porous medium on local heat transfer and fluid flow in a forced convection field K. Ichimiya, T. Matsuda, Y. Kawai</p><p> 1567 -- 1576<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> A simple universal equation for bubble growth in pure liquids and binary solutions with a non-volatile solute O. Miyatake, I. Tanaka, N. Lior</p><p> 1577 -- 1584</p><p> Compressible gas in porous media: a finite amplitude analysis of natural convection P.H. Stauffer, L.H. Auer, N.D. Rosenberg</p><p> 1585 -- 1589</p><p> Spectral optical functions of silicon in the range of 1.13-4.96 eV at elevated temperatures K.S. Byung, Z. Xiang, C.P. Grigoropoulos</p><p> 1591 -- 1600</p><p> Hygrostress-multicrack formation and propagation in cylindrical viscoelastic food undergoing heat and moisture transfer processes T. Akiyama, L. Hong, K. Hayakawa</p><p> 1601 -- 1609</p><p> Non-linear stability of convection in a porous medium with inclined temperature gradient P.N. Kaloni, Q. Zongchun</p><p> 1611 -- 1615<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Natural convective heat transfer from a horizontal cylinder to fluid at near-critical condition Yu.G. Leonenko, V.A. Antipin</p><p> 1617 -- 1620</p><p> Mixed convection heat and mass transfer in vertical rectangular ducts L. Kuan-Tzong, T. Hon-Ling, Y. Wei-Mon</p><p> 1621 -- 1631</p><p> Coupled heat air and moisture transfer in building structures P. Haupl, J. Grunewald, H. Fechner, H. Stopp</p><p> 1633 -- 1642</p><p> The heat flux measurement method based on isotherm registration A.K. Alekseev</p><p> 1643 -- 1646</p><p> Two data reduction methods for evaluation of thermal diffusivity from step-heating 1647 -- 1655 measurements L. Vozar, T. Sramkova Pool boiling of R-22, R-124 and R-134a on a plain tube C. Chung-Biau, L. Ding-Chung, W. Chi-Chuan</p><p> 1657 -- 1666<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Suppression of temperature oscillation in Czochralski convection by superimposing rotating flows C. Jung-Il, J.S. Hyung</p><p> 1667 -- 1675</p><p> Numerical study of a backward-facing step with uniform normal mass bleed Y. Yue-Tzu, K. Chung-Lun</p><p> 1677 -- 1686</p><p> Numerical study of heat transfer enhancement of a horizontal tube with an eccentrically inserted plate I.H. C., S.L. Y., D.C. J.</p><p> 1687 -- 1692</p><p> The mixed convection plume along a vertical adiabatic surface embedded in a nonDarcian porous medium J. Jiin-Yuh, S. Chuan-Tzer</p><p> 1693 -- 1699</p><p> Internal heat-mass transfer and stresses in thin-walled structures of ablating materials Yu.I. Dimitrienko</p><p> 1701 -- 1711<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> The interface temperature of two suddenly contacting bodies, one of them undergoing phase change T. Loulou, D. Delaunay</p><p> 1713 -- 1716</p><p> The unsteady solutions of a unified heat conduction equation L. Chaur-Kie, H. Chi-Chuan, C. Yeon-Pun</p><p> 1716 -- 1719</p><p> Optimal control of the heat storage in a porous slab A.V. Kuznetsov</p><p> 1720 -- 1723</p><p> Numerical studies of forced convection heat transfer from a cylinder embedded in a 1725 -- 1726 packed bed K.J. Nasr, S. Ramadhyani, R. Viskanta Volume (issue): 40 (6) 1997 Effect of viscous dissipation on a non-Darcy natural convection regime P.V.S.N. Murthy, P. Singh</p><p> 1251 -- 1260</p><p> The effects of longitudinal heat conduction in compact plate-fin and tube-fin heat exchangers using a finite element method Ch. Ranganayakulu, K.N. Seetharamu, K.V. Sreevatsan</p><p> 1261 -- 1277<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Film condensation induced by a natural convective flow: steady-state analysis F. Mendez, C. Trevino</p><p> 1279 -- 1289</p><p> A hydrodynamic critical heat flux model for saturated pool boiling on a downward facing curved heating surface B.C. F., K.H. Haddad</p><p> 1291 -- 1302</p><p> Transport of a passive scalar in a turbulent channel flow D.V. Papavassiliou, T.J. Hanratty</p><p> 1303 -- 1311</p><p> The Prandtl number effect on the optimum heating frequency of an enclosure filled with fluid or with a saturated porous medium B.V. Antohe, J.L. Lage</p><p> 1313 -- 1323</p><p> Computations of flow and heat transfer in parallel-plate fin heat exchangers on the CM-5: effects of flow unsteadiness and three-dimensionality W.Z. L., D.K. Tafti, F.M. Najjar, S. Balachandar</p><p> 1325 -- 1341<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> A numerical analysis of solid-liquid phase change heat transfer around a single and two horizontal, vertically spaced cylinders in a rectangular cavity K. Sasaguchi, K. Kusano, R. Viskanta</p><p> 1343 -- 1354</p><p> Impingement cooling of a confined circular air jet S. Jung-Yang, H. Chih-Hao, S. Ming-Hong</p><p> 1355 -- 1364</p><p> An experimental study of flow and heat transfer in parallel-plate arrays: local, row-by-row and surface average behavior N.C. Dejong, A.M. Jacobi</p><p> 1365 -- 1378</p><p> Laminar flow heat transfer to viscous power-law fluids in double-sine ducts R.M. Manglik, J. Ding</p><p> 1379 -- 1390</p><p> Thermal pulse propagation and dispersion in laminar flow within conduits of finite wall conductivity U.H. Kurzweg, M.J. Jaeger</p><p> 1391 -- 1400<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Stability of viscoelastic fluids in a modulated gravitational field Y. Wen-Mei</p><p> 1401 -- 1410</p><p> Effect of gravity modulation on natural convection in a vertical slot Y.J. Y., F.C. C.</p><p> 1411 -- 1426</p><p> A straightforward approximation to the equations governing convective flows in multi-component fluids R. Perez-Cordon, J.I. Mengual</p><p> 1427 -- 1436</p><p> Measurement of heat flow through vacuum glazing at elevated temperature G.M. Turner, R.E. Collins</p><p> 1437 -- 1446</p><p> Effects of Coriolis force and surface tension on Benard-Marangoni convective instability J.J. Jong, Y.K. Kuang, H.H. Cheng</p><p> 1447 -- 1458<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Use of boundary conditions of the third kind to model heat conduction between two proximate rough surfaces separated by an insulator A.M.J. Davis, H. Brenner</p><p> 1459 -- 1465</p><p> Flow structure and temperature measurements in a 3-D vertical free convective enclosure at high Rayleigh numbers</p><p> 1467 -- 1480</p><p> H. Shou-Shing, Y. Shyh-Shyan Impingement heat transfer and recovery effect with submerged jets of large Prandtl number liquid--I. Unconfined circular jets C.F. Ma, Z. Q., C.L. S., T. Gomi</p><p> 1481 -- 1490</p><p> Impingement heat transfer and recovery effect with submerged jets of large Prandtl number liquid--II. Initially laminar confined slot jets F.M. C., Z. Y., C.L. S., T. Gomi</p><p> 1491 -- 1500</p><p> Volume (issue): 40 (5) 1997 Optimum plate separation in vertical parallel-plate channels for natural convective flows: incorporation of large spaces at the channel extremes B. Morrone, A. Campo, O. Manca</p><p> 993 -- 1000<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> A perturbation solution for heating a rectangular sensible heat storage packed bed with a constant temperature at the walls A.V. Kuznetsov</p><p> 1001 -- 1006</p><p> Hyperbolic heat conduction and local equilibrium: a second law analysis A. Barletta, E. Zanchini</p><p> 1007 -- 1016</p><p> Contact angle temperature dependence for water droplets on practical aluminum surfaces J.D. Bernardin, I. Mudawar, C.B. Walsh, E.I. Franses</p><p> 1017 -- 1033</p><p> Analysis of thermally optimized fin array in boiling liquids Y. Rong-Hua</p><p> 1035 -- 1044</p><p> Fin efficiency enhancement using a gravity-assisted planar heat pipe J. Wei, K. Hijikata, T. Inoue</p><p> 1045 -- 1051<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Kinetic model for crystallization in porous media L. Bronfenbrener, E. Korin</p><p> 1053 -- 1059</p><p> Heat transfer and flow field in a pipe with sinusoidal wavy surface--I. Numerical investigation G. Russ, H. Beer</p><p> 1061 -- 1070</p><p> Heat transfer and flow field in a pipe with sinusoidal wavy surface--II. Experimental investigation G. Russ, H. Beer</p><p> 1071 -- 1081</p><p> A microscopic thermal model for dry sliding contact P. Chantrenne, M. Raynaud</p><p> 1083 -- 1094</p><p> Heat transfer behaviors of a confined slot jet impingement H.L. Z., J.C. Y., H.H. Y.</p><p> 1095 -- 1107<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Sechage intermittent de mais en lit fluidise a flottation: etude experimentale et modelisation M. Mourad, M. Hemati, C. Laguerie</p><p> 1109 -- 1119</p><p> A mechanical and geometrical approach to thermal contact resistance J.J. Salgon, F. Robbe-Valloire, J. Blouet, J. Bransier</p><p> 1121 -- 1129</p><p> Laser heating process and experimental validation B.S. Yilbas</p><p> 1131 -- 1143</p><p> B.S. Yilbas Thermodynamic analysis of convective heat transfer in a packed duct with asymmetrical wall temperatures Y. Demirel, H.H. Al-Ali</p><p> 1145 -- 1153</p><p> Convection naturelle instationnaire dans un cylindre rempli de grains ouvert a ses extremites et dont la paroi est chauffee par un flux de chaleur constant: validite de l'hypothese de l'equilibre thermique local S.B. Nasrallah, T. Amara, M.A. Du Peuty</p><p> 1155 -- 1168<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Numerical simulation of natural convection of gallium in a narrow gap R. Derebail, J.N. Koster</p><p> 1169 -- 1180</p><p> Forced convection in the thermal entrance region of a circular duct with slug flow and viscous dissipation A. Barletta, E. Zanchini</p><p> 1181 -- 1190</p><p> Explicit, rigorous solutions to two-dimensional heat transfer : two-component media and optimization of cooling fins A.R. Kacimov, Yu.V. Obnosov</p><p> 1191 -- 1196</p><p> The peculiarities of turbulent heat transfer in electric-arc plasma devices Yu.S. Levitan</p><p> 1197 -- 1203</p><p> Theory of transient multicomponent transport coupling in three-dimensional stagnation flows Y. Tambour</p><p> 1205 -- 1216<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> The response of dried materials to drying conditions S.J. Kowalski, G. Musielak, A. Rybicki</p><p> 1217 -- 1226</p><p> A physico-mathematical model of rocket exhaust plumes E.I. Vitkin, V.G. Karelin, A.A. Kirillov, A.S. Suprun, Ju.V. Khadyka</p><p> 1227 -- 1241</p><p> Technical note. Dissipative cylindrical Couette flow of yield-pseudoplastic fluids K.J. Hammad, G.C. Vradis</p><p> 1243 -- 1247</p><p> Volume (issue): 40 (4) 1997 Numerical investigation on a simulation model of floating zone convection S.C. Q., R.H. W.</p><p> 757 -- 763</p><p> Augmentation of steam condensation heat transfer by addition of ammonia J.N.A. Morrison, J. Deans</p><p> 765 -- 772<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Mixed convection flow and heat transfer between two co-rotating porous disks with wall transpiration M.Y. W., Y.S. C.</p><p> 773 -- 784</p><p> Rayleigh-Marangoni thermoconvective instability with non-Boussinesq corrections R. Selak, G. Lebon</p><p> 785 -- 798</p><p> Constructal-theory network of conducting paths for cooling a heat generating volume A. Bejan</p><p> 799 -- 816</p><p> Control of Rayleigh-Benard convection in a small aspect ratio container L.E. Howle</p><p> 817 -- 822</p><p> Variable density effects in axisymmetric isothermal turbulent jets: a comparison between a first- and a second-order turbulence model J.P.H. Sanders, B. Sarh, I. Gokalp</p><p> 823 -- 842<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Simulation of the transport processes in the neck-down region of a furnace drawn optical fiber H.-K.L. S., Y. Jaluria</p><p> 843 -- 856</p><p> Oscillatory instability analysis of Benard-Marangoni convection in a rotating fluid with internal heat generation C. Ming-I, C. Ko-Ta, J. Jong-Jhy</p><p> 857 -- 867</p><p> Axial void fraction profile in low pressure subcooled flow boiling O. Zeitoun, M. Shoukri</p><p> 869 -- 879</p><p> The role of thermocapillary instability in heat transfer in a liquid metal pool V.A. Nemchinsky</p><p> 881 -- 891</p><p> A numerical study of unsteady free convection from a sphere in a porous medium B. Yan, I. Pop, D.B. Ingham</p><p> 893 -- 903<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Irreversibility phenomena associated with heat transfer and fluid friction in laminar flows through singly connected ducts D.P. Sekulic, A. Campo, J.C. Morales</p><p> 905 -- 914</p><p> Effects of wall conduction, internal heat sources and an internal baffle on natural convection heat transfer in a rectangular enclosure S.S. Y., A.F. Emery</p><p> 915 -- 929</p><p> An extended study on steady-state laminar film condensation of a superheated vapour 931 -- 941 on an isothermal vertical plate S. De-Yi, W. Bu-Xuan Effective thermal conductivity of nonlinear composite media with contact resistance N. Fusheng, Q.G. G., M.C. K.</p><p> 943 -- 949</p><p> Efficient laser heating of transparent liquids using multiphoton absorption J.P. Longtin, T. Chang-Lin</p><p> 951 -- 959</p><p> Experimental study on the heat and mass transfer of a combined absorberevaporator exchanger C. Yau-Ming, S. Chung-Yung</p><p> 961 -- 971<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Heat transfer and friction factor correlations for artificially roughened ducts with expanded metal mesh as roughness element R.P. Saini, J.S. Saini</p><p> 973 -- 986</p><p> High temperature gas radiative property parameters of statistical narrow-band model for H2O, CO2 and CO, and correlated-K model for H2O and CO2 A. Soufiani, J. Taine</p><p> 987 -- 991</p><p> Volume (issue): 40 (3) 1997 In memoriam--Professor Michael Adol'fovich Styrikovich (1902-1995) V.E. Nakoryakov, A.I. Leontiev, I.L. Mostinsky, J.P. Hartnett</p><p> 503 -- 504</p><p> Unsteady vortex roll structures in a mixed convective air flow through a horizontal plane channel: a numerical study</p><p> 505 -- 518</p><p> H.Y. C., Y.C. M., C.H. C., F.L. T. Nucleate pool boiling from coated surfaces in saturated R-134a and R-407c H. Shou-Shing, W. Chun-Jen</p><p> 519 -- 532<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> A generalized heat transfer correlation for louver fin geometry C. Yu-Juei, W. Chi-Chuan</p><p> 533 -- 544</p><p> Soret effects in ternary systems heated from below J.P. Larre, J.K. Platten, G. Chavepeyer</p><p> 545 -- 555</p><p> Heat transfer and ice formations deposited upon cold tube bundles immersed in flowing water--I. Convection analysis P.A. Intemann, M. Kazmierczak</p><p> 557 -- 572</p><p> Heat transfer and ice formations deposited upon cold tube bundles immersed in flowing water--II. Conjugate analysis M. Kazmierczak, P.A. Intemann</p><p> 573 -- 588</p><p> Combined heat and mass transfer during bubble absorption in binary solutions T.L. Merrill, H. Perez-Blanco</p><p> 589 -- 603<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Numerical studies on thermal convection in cold groundwater E. Holzbecher</p><p> 605 -- 612</p><p> A temperature wall function formulation for variable-density turbulent flows with application to engine convective heat transfer modeling Z. Han, R.D. Reitz</p><p> 613 -- 625</p><p> The calculation of anisotropic extinction coefficients for radiation diffusion in rigid fibrous ceramic insulations J. Marschall, F.S. Milos</p><p> 627 -- 634</p><p> Friction factors for fully developed laminar flow in ducts confined by corrugated parallel walls L. Fischer, H. Martin</p><p> 635 -- 639</p><p> Liquid-side interphase mass transfer in cocurrent vertical two-phase channel flows D. Luo, S.M. Ghiaasiaan</p><p> 641 -- 655<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Controle hydrodynamique des couches limites thermiques en convection mixte autour d'ellipsoides aplatis axisymetriques A.A. Cherif, Ch.R.R. Raminosoa, M. Rakotomalala, A. Daif, M. Daguenet</p><p> 657 -- 663</p><p> The unsteady penetration of free convection flows caused by heating and cooling flat surfaces in a porous media R. Bradean, D.B. Ingham, P.J. Heggs, I. Pop</p><p> 665 -- 687</p><p> Transient coupled conductive/radiative heat transfer in absorbing, emitting and scattering media: application to laser-flash measurements on ceramic materials O. Hahn, F. Raether, M.C. Arduini-Schuster, J. Fricke</p><p> 689 -- 698</p><p> Effect of finite deformations on internal heat-mass transfer in elastomer ablating materials Yu.I. Dimitrienko</p><p> 699 -- 709</p><p> Time-dependent double-diffusive convection due to salt-stratified fluid layer with differential heating in an inclined cavity C. Yau-Ming, L. Jiun-Kae</p><p> 711 -- 725<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Mass transfer by simultaneous dropwise condensation and particle deposition M.J. Tierney, G.L. Quarini</p><p> 727 -- 735</p><p> Mixed binary convection in a rotating disk chemical vapor deposition reactor W.S. Winters, G.H. Evans, R. Greif</p><p> 737 -- 744</p><p> Heat transfer enhancement in laminar flow of viscoelastic fluids through rectangular ducts P. Payvar</p><p> 745 -- 756</p><p> Volume (issue): 40 (2) 1997 Evaluation of discrete ordinates method for radiative transfer in rectangular furnaces 213 -- 222 N. Selcuk, N. Kayakol Buoyancy-force-driven transitions in flow structures and their effects on heat transfer in a rotating curved channel W. Liqui</p><p> 223 -- 235</p><p> Rotation effects on the convection of binary alloys unidirectionally solidified from below J.W. Lu, C. Falin</p><p> 237 -- 246<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Mapping of impact and heat transfer regimes of water drops impinging on a polished surface J.D. Bernardin, C.J. Stebbins, I. Mudawar</p><p> 247 -- 267</p><p> Thermal conductivity of polyimide foams R. Caps, U. Heinemann, J. Fricke, K. Keller</p><p> 269 -- 280</p><p> Numerical investigation of adsorptive heat pump systems with thermal wave heat regeneration under uniform-pressure conditions M.S. L., F. Y., M. Pons</p><p> 281 -- 293</p><p> Solidification phenomena in picoliter size solder droplet deposition on a composite substrate J.M. Waldvogel, D. Poulikakos</p><p> 295 -- 309</p><p> Steady-solution selection and existence in geothermal heat pipes--II. The conductive case M.J. McGuinness</p><p> 311 -- 321<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Radiative exchange between a cylindrical crystal and a monoellipsoidal mirror furnace R. Haya, D. Rivas, J. Sanz</p><p> 323 -- 332</p><p> Structures of moving transverse and mixed rolls in mixed convection of air in a horizontal plane channel H.Y. C., Y.C. M., F.L. T.</p><p> 333 -- 346</p><p> Changes of longitudinal vortex roll structure in a mixed convective air flow through a horizontal plane channel: an experimental study Y.C. M., H.Y. C., F.L. T.</p><p> 347 -- 363</p><p> The isolated bubble regime in pool nucleate boiling Yu.A. Buyevich, B.W. Webbon</p><p> 365 -- 377</p><p> Transient thermal convection in a spherical enclosure containing a fluid core and a porous shell</p><p> 379 -- 392<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> porous shell H.D. Nguyen, S. Paik, I. Pop The effective thermal conductivity of a porous medium with interconnected particles G. Buonanno, A. Carotenuto</p><p> 393 -- 405</p><p> Thermoacoustic waves in a confined medium H. Yufeng, H.H. Bau</p><p> 407 -- 419</p><p> Three-dimensional mixed convection laminar boundary-layer over a horizontal surface in the neighbourhood of a plane of symmetry A. Ridha</p><p> 421 -- 433</p><p> Effect of coolant temperature and mass flow on film cooling of turbine blades V.K. Garg, R.E. Gaugler</p><p> 435 -- 445</p><p> The nonlinear Czochralski growing process of crystals with variable thermal properties L. Senpuu, H. Chi-Chuan, L. Hong-Yu</p><p> 447 -- 459<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Developing and periodically developed flow, temperature and heat transfer in a ribbed duct S. Acharya, T. Myrum, Q. X., S. Sinha</p><p> 461 -- 479</p><p> An experimental study of laminar heat transfer in a one-porous-wall square duct with suction flow J.H. G., C.C. Y., W.C. W.</p><p> 481 -- 485</p><p> Natural convection in porous media near L-shaped corners I. Pop, D. Angirasa, G.P. Peterson</p><p> 485 -- 490</p><p> Symbolic mathematics for the calculation of thermal efficiencies and tip temperatures in annular fins of uniform thickness A. Campo, R.E. Stuffle</p><p> 490 -- 492</p><p> Composite correlations for convective heat transfer from arrays of three-dimensional obstacles G.K. Morris, S.V. Garimella</p><p> 493 -- 498<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Heat transport along an oscillating flat plate in the presence of a transverse magnetic field K. Shailendhra, S.P.A. Devi</p><p> 498 -- 501</p><p> Volume (issue): 40 (1) 1997 Fully developed laminar forced convection in circular ducts for power-law fluids with viscous dissipation A. Barletta</p><p> 15 -- 26</p><p> The effects of inlet fluid flow nonuniformity on thermal performance and pressure drops in crossflow plate-fin compact heat exchangers Ch. Ranganayakulu, K.N. Seetharamu, K.V. Sreevatsan</p><p> 27 -- 38</p><p> Enhancement of heat transfer using porous convection-to-radiation converter for laminar flow in a circular duct M.Z. J., W.H. Sutton, C.L. F.</p><p> 39 -- 48</p><p> Regions of validity of the geometric optics approximation for angular scattering from very rough surfaces</p><p> 49 -- 59<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> very rough surfaces T. Kakuen, R.A. Dimenna, R.O. Buckius The measurement and calculation of radiative heat transfer between uncoated and doped tin oxide coated glass surfaces Z. Q-C., T.M. Simko, C.J. Dey, R.E. Collins, G.M. Turner, M. Brunotte, A. Gombert</p><p> 61 -- 71</p><p> Effects of surface roughness on water droplet impact history and heat transfer regimes J.D. Bernardin, C.J. Stebbins, I. Mudawar</p><p> 73 -- 88</p><p> Ignition phenomenon of solid fuel in a confined rectangular enclosure W.B. Seung, Y.K. Taik, C.R. Kaplan</p><p> 89 -- 99</p><p> Theoretical and experimental study of natural convection heat transfer from isothermal hemisphere W.M. Lewandowski, P. Kubski, J.M. Khubeiz, H. Bieszk, T. Wilczewski, S. Szymanski</p><p> 101 -- 109</p><p> The effect of thermal stratification on natural convection in a vertical porous insulation layer D.A.S. Rees, J.L. Lage</p><p> 111 -- 121<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Conjugate natural convection heat transfer between two porous media separated by a vertical wall F.J. Higuera, I. Pop</p><p> 123 -- 129</p><p> Multicomponent diffusion interactions during condensation in laminar and turbulent pipe flow M. Braun, U. Renz</p><p> 131 -- 139</p><p> Numerical investigation of heat transfer in impinging axial and radial jets with superimposed swirl B.L. Owsenek, T. Cziesla, N.K. Mitra, G. Biswas</p><p> 141 -- 147</p><p> Etude de la cristallisation de nodules contenant un materiau a changement de phase en vue du stockage par chaleur latente J.P. Bedecarrats, J.P. Dumas</p><p> 149 -- 157</p><p> Calculation of heat and moisture transfer in exposed building components H.M. Kunzel, K. Kiessl</p><p> 159 -- 167<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Effect of viscous dissipation on the asymptotic behaviour of laminar forced convection in circular tubes E. Zanchini</p><p> 169 -- 178</p><p> Hydrodynamics and heat transfer of wavy thin film flow S. Jayanti, G.F. Hewitt</p><p> 179 -- 190</p><p> Heat and mass flows coupled with stress in a continuous medium M.A. Wrobel</p><p> 191 -- 207</p><p> Technical note. Bubble detachment criteria J. Mitrovic</p><p> 209 -- 211</p><p> Volume (issue): 39 (18) 1996 A vapor flow model for analysis of liquid-metal heat pipe startup from a frozen state J.M. Tournier, M.S. El-Genk</p><p> 3767 -- 3780<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Condensation on a spray of water drops: a cell model study--I. Flow description S.S. Sripada, P.S. Ayyaswamy, J.H. L.</p><p> 3781 -- 3790</p><p> Condensation on a spray of water drops: a cell model study--II. Transport quantities J.H. L., P.S. Ayyaswamy, S.S. Sripada</p><p> 3791 -- 3797</p><p> An experimental study of subcooled film boiling of refrigerants in vertical up-flow N. Hammouda, D.C. Groeneveld, C.C. S.</p><p> 3799 -- 3812</p><p> Calculation of wall heat transfer in pipe-expansion turbulent flows D.H. W., C.C. K.</p><p> 3813 -- 3822</p><p> Penetrative convection induced by the freezing of seawater L. Hadji, J. Xian-Xi</p><p> 3823 -- 3834<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Ultra-shallow p+-junction formation in silicon by excimer laser doping: a heat and mass transfer perspective Z. X., R.H. J., C.P. Grigoropoulos</p><p> 3835 -- 3844</p><p> Influences of initial concentration and supercooling degree on the permeability of a porous medium saturated with partially solidified aqueous solution M. Okada, K. Matsumoto, M. Fukuzaki</p><p> 3845 -- 3853</p><p> Transfert de masse sur une plaque finie placee en regard d'une matrice de jets: influence des reprises et de la forme des orifices d'injection F. Aglat, M. Martin, P. Gardin</p><p> 3855 -- 3872</p><p> The influence of radiation absorption on solar pond stability M. Giestas, H. Pina, A. Joyce</p><p> 3873 -- 3885</p><p> Study of the evaporation of a droplet in its stagnant vapor by asymptotic matching J. Margerit, O. Sero-Guillaume</p><p> 3887 -- 3898<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Scaling of boundary-layer flows driven by double-diffusive convection A. Mongruel, M. Cloitre, C. Allain</p><p> 3899 -- 3910</p><p> Modelling of a thermo-viscoelastic coupling for large deformations through finite element analysis G. Berardi, M. Jaeger, R. Martin, C. Carpentier</p><p> 3911 -- 3924</p><p> Free convection in inclined air layers heated from above S.M. Elsherbiny</p><p> 3925 -- 3930</p><p> Heat transfer by forced convection in pipes packed with porous media whose matrices are composed of spheres M. Varahasamy, R.M. Fand</p><p> 3931 -- 3947</p><p> Numerical investigation of the interference effects between two burning fuel spheres K. Sivasankaran, K.N. Seetharamu, R. Natarajan</p><p> 3949 -- 3957<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Analysis of heat transfer with liquid-vapor phase change in a forced-flow fluid moving through porous media O. Rahli, F. Topin, L. Tadrist, J. Pantaloni</p><p> 3959 -- 3975</p><p> Penetrative flow due to an isothermal vertical wall in a stable two-layer environment generated by a room fire</p><p> 3977 -- 3987</p><p> K. Kapoor, Y. Jaluria A nonequilibrium algebraic model for turbulent density fluctuations W. H., P.C. C.</p><p> 3989 -- 3991</p><p> Principles of Convective Heat Transfer. Y. Jaluria</p><p> 3993 -- 3993</p><p> Volume (issue): 39 (17) 1996 Heat transfer augmentation for the flow of a viscous liquid in circular tubes using twisted tape inserts S.K. Agarwal, M.R. Rao</p><p> 3547 -- 3557<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Experimental study of simultaneous heat and moisture transfer around single short porous cylinders during convection drying by a psychrometry method S. Ssu-Hsueh, T.R. Marrero</p><p> 3559 -- 3565</p><p> A scaling analysis of the unidirectional solidification of a binary alloy M.J.M. Krane, F.P. Incropera</p><p> 3567 -- 3579</p><p> The viscous stagnation-flow solidification problem B. X., R.H. Rangel</p><p> 3581 -- 3594</p><p> Wall-bounded buoyant turbulent flow and its modeling T.P. Sommer, M.C.S. R.</p><p> 3595 -- 3606</p><p> A multiphase mixture model for multiphase, multicomponent transport in capillary 3607 -- 3618 porous media--I. Model development Y.W. C., C. P. A multiphase mixture model for multiphase, multicomponent transport in capillary 3619 -- 3632 porous media--II. Numerical simulation of the transport of organic compounds in the subsurface C. P., Y.W. C. Numerical study of a low permeability microporous heat sink for cooling phasedarray radar systems J.L. Lage, A.K. Weinert, D.C. Price, R.M. Weber</p><p> 3633 -- 3647<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Comparison of some inverse heat conduction methods using experimental data J.V. Beck, B. Blackwell, A. Haji-Sheikh</p><p> 3649 -- 3657</p><p> Analogy between electrical machines and heat transfer-irreversible heat engines A. Bejan, N. Dan</p><p> 3659 -- 3666</p><p> Experimental observation and conjugated heat transfer analysis of vortex flow development in mixed convection of air in a horizontal rectangular duct L.L. W., T.K. Y., F.L. T.</p><p> 3667 -- 3683</p><p> Second-order finite difference approximation for inverse determination of thermal conductivity K.Y. W., T.L. T.</p><p> 3685 -- 3693</p><p> Heat transfer and flow structures in an excited circular impinging jet L. Tianshu, J.P. Sullivan</p><p> 3695 -- 3706<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Numerical computation of heat flow, fluid flow and interface shapes in the float zone of lithium niobate during a melting process C. Jyh-Chen, W. Hsian-Kun</p><p> 3707 -- 3716</p><p> Phenomene de constriction thermique dans les contacts glissants N. Laraqi</p><p> 3717 -- 3724</p><p> The effect of liquid encapsulation on the Marangoni convection in a liquid column under microgravity condition L. Mingwei, Z. Danling</p><p> 3725 -- 3732</p><p> Theory of transient experimental techniques for surface heat transfer J. Taler</p><p> 3733 -- 3748</p><p> Natural convection in a liquid metal enclosure with floor cooling A.W. Stevens</p><p> 3749 -- 3759<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Use of two-dimensional Fast Fourier Transform in harmonic modulated thermal diffusion F. Depasse, P. Grossel</p><p> 3761 -- 3764</p><p> Artificial roughness effects on turbulent transfer coefficients in the entrance region of a circular tube B. Mottahed, M. Molki</p><p> 3765 -- 3765</p><p> Volume (issue): 39 (16) 1996 Low dimensional modeling of flow reactors M.P. H., D.H. Cho</p><p> 3311 -- 3323</p><p> Radiation affected compressible turbulent flow over a backward facing step S.K. Sang, W.B. Seung</p><p> 3325 -- 3332</p><p> Turbulent velocity field in isothermal and heated liquid flow through a vertical annular channel V. Velidandla, S. Putta, R.P. Roy</p><p> 3333 -- 3346<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Experimental observation of interface shapes in the float zone of lithium niobate during a CO2 laser melting H. Chieh, C. Jyh-Chen</p><p> 3347 -- 3355</p><p> Heat transfer from vertical inserts in gas-fluidized beds D.J. Gunn, N. Hilal</p><p> 3357 -- 3365</p><p> Heat transfer in the flow of a cold, two-dimensional vertical liquid jet against a hot, horizontal plate S. Jian-Jun, G. Wilks</p><p> 3367 -- 3379</p><p> Flow transitions and combined free and forced convective heat transfer in a rotating curved circular tube W. Liqiu, C.C. K.</p><p> 3381 -- 3400</p><p> Phase-resolved measurements in a gas-injected liquid bath H. Turkoglu, B. Farouk</p><p> 3401 -- 3415<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Thermal effects on the morphological stability in a directional solidification system with remote flow H. Chi-Chuan, H. Jin-Yuan, C. Chin-Chan</p><p> 3417 -- 3423</p><p> The effect of inertia on free convection from a horizontal surface embedded in a porous medium D.A.S. Rees</p><p> 3425 -- 3430</p><p> The optimal dimensions of circular fins with variable profile and temperaturedependent thermal conductivity S.M. Zubair, A.Z. Al-Garni, J.S. Nizami</p><p> 3431 -- 3439</p><p> Numerical and experimental determination of flow structure and heat transfer effects of longitudinal vortices in a channel flow G. Biswas, K. Torii, D. Fujii, K. Nishino</p><p> 3441 -- 3451</p><p> High pressure vaporization of LOX droplet crossing the critical conditions P. Haldenwang, C. Nicoli, J. Daou</p><p> 3453 -- 3464<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> A nonlinear low-Reynolds-number k- model for turbulent separated and reattaching flows--II. Thermal field computations H.R. Gwang, J.S. Hyung</p><p> 3465 -- 3474</p><p> Holographic study of suspended vaporizing volatile liquid droplets in still air G.R. Toker, J. Stricker</p><p> 3475 -- 3482</p><p> New low-Reynolds-number k- model including damping effect due to buoyancy in a stratified flow field S. Murakami, S. Kato, T. Chikamoto, D. Laurence, D. Blay</p><p> 3483 -- 3496</p><p> Visualization of natural convection in a side-heated cavity: transition to the final steady state W. Schopf, J.C. Patterson</p><p> 3497 -- 3509</p><p> Axial wall conduction preheating effects in high Peclet number laminar forced convection S. Piva</p><p> 3511 -- 3517<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Convective heat transfer and pressure drop characteristics of various array configurations to simulate the cooling of electronic modules B.A. Jubran, S.A. Swiety, M.A. Hamdan</p><p> 3519 -- 3529</p><p> Thermodiffusion and thermo-electric phenomena in condensed systems S. Barta</p><p> 3531 -- 3542</p><p> A parametric representation of diffusive enhancement in a confined oscillatory flow 3543 -- 3546 B.K. Myung, D.S. Hyun Volume (issue): 39 (15) 1996 Heat transfer bibliography--Japanese works 1994 I. Tanasawa, S. Nishio, K. Suzuki</p><p> 3089 -- 3100</p><p> Numerical prediction of laminar flow and forced convective heat transfer in a helical square duct with a finite pitch C.J. Bolinder, B. Sunden</p><p> 3101 -- 3115</p><p> Pool boiling heat transfer on a thin plate: features revealed by liquid crystal thermography D.B.R. Kenning, Y. Youyou</p><p> 3117 -- 3137<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Heat transfer regime map for electronic devices cooling</p><p> 3139 -- 3145</p><p> K. Fushinoru, K. Hijikata, Y. Kurosaki The relationship between the Colburn and Silver methods of condenser design D.R. Webb, M. Fahrner, R. Schwaab</p><p> 3147 -- 3156</p><p> Estimation of directional-dependent thermal properties in a carbon-carbon composite K.J. Dowding, J.V. Beck, B.F. Blackwell</p><p> 3157 -- 3164</p><p> Heat transfer enhancement in latent heat thermal energy storage system by using the internally finned tube Z. Yuwen, A. Faghri</p><p> 3165 -- 3173</p><p> A ray tracing method for evaluating the radiative heat transfer in porous media C. Argento, D. Bouvard</p><p> 3175 -- 3180<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Ultrashort-pulse laser heating of silicon to reduce microstructure adhesion K. Fushinobu, L.M. Phinney, N.C. Tien</p><p> 3181 -- 3186</p><p> Effect of two-dimensional conduction in the condensate film on laminar film condensation on a horizontal tube with variable wall temperature Z. Y.-Q., J.W. Rose</p><p> 3187 -- 3191</p><p> A combined numerical and experimental study of air convection in a differentially heated rotating cubic cavity T.K. Y., F.L. T.</p><p> 3193 -- 3210</p><p> Heat transfer and pressure drop characteristics of ten radiator tubes C.-O. Olsson, B. Sunden</p><p> 3211 -- 3220</p><p> Etude theorique de l'influence des infibres sur le comportement radiatif des isolants fibreux P. Boulet, G. Jeandel, G. Morlot, P. De Dianous</p><p> 3221 -- 3231<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Natural convection in a cubical cavity heated from below at low Rayleigh numbers J. Pallares, I. Cuesta, F.X. Grau, F. Giralt</p><p> 3233 -- 3247</p><p> Turbulent vapor condensation with noncondensable gases in vertical tubes J.L. Munoz-Cobo, L. Herranz, J. Sancho, I. Tkachenko, G. Verdu</p><p> 3249 -- 3260</p><p> Hyperbolic propagation of an axisymmetric thermal signal in an infinite solid medium A. Barletta</p><p> 3261 -- 3271</p><p> A computationally efficient procedure for calculating gas radiative properties using the exponential wide band model N. Lallemant, R. Weber</p><p> 3273 -- 3286</p><p> Mass transfer between a two-dimensional wall jet with a heterogeneous chemical reaction of the first order and a wall: analytical solution T. Elperin, A. Fominykh</p><p> 3287 -- 3291<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Perturbational thermodynamics of coupled electrochemical heat and mass transfer S. Sieniutycz, S.K. Ratkje</p><p> 3293 -- 3303</p><p> Non-Fourier heat conduction in a finite medium under periodic surface thermal disturbance--II. Another form of solution W.T. D., N. Araki</p><p> 3305 -- 3308</p><p> Volume (issue): 39 (14) 1996 g-Jitter induced free convection in a transverse magnetic field B.O. Li</p><p> 2853 -- 2860</p><p> Pore formation in hot spots I.H. Katzarov, J.R. Popov</p><p> 2861 -- 2867</p><p> Numerical study on mode-transition of natural convection in differentially heated inclined enclosures C.Y. Soong, P.Y. Tzeng, D.C. Chuang, T.S. Sheu</p><p> 2869 -- 2882<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Simulation of two-dimensional thermosolutal convection in liquid metals induced by horizontal temperature and species gradients T.L. Bergman, M.T. Hyun</p><p> 2883 -- 2894</p><p> Thermovibrational convection in a vertical cylinder F.T. Ferguson, L.U. Lilleleht</p><p> 2895 -- 2906</p><p> Flow and heat transfer measurements of a wall attaching offset jet S.K. Dae, H.Y. Soon, H.L. Dae, C.K. Kyung</p><p> 2907 -- 2913</p><p> Nozzle-geometry effects in liquid jet impingement heat transfer S.V. Garimella, B. Nenaydykh</p><p> 2915 -- 2923</p><p> Heat transfer on the base surface of three-dimensional protruding elements M.K. Chyu, V. Natarajan</p><p> 2925 -- 2935<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Forced convection steam condensation experiments within thin porous coatings K.J. Renken, M.R. Raich</p><p> 2937 -- 2945</p><p> A heat transfer correlation for condensation inside horizontal smooth tubes using the population balance approach M.S. Chitti, N.K. Anand</p><p> 2947 -- 2956</p><p> Errors in one-dimensional fin optimization problem for convective heat transfer Y. Rong-Hua</p><p> 2957 -- 2968</p><p> Comparison between theoretical models and experimental data for the spreading of 2969 -- 2976 liquid droplets impacting a solid surface W.M. Healy, J.G. Hartley, S.I. Abdel-Khalik Heat Pipe Science and Technology L.L. Vasiliev</p><p> 2977 -- 2987</p><p> A thermal model for the rotary kiln including heat transfer within the bed A.A. Boateng, P.V. Barr</p><p> 2989 -- 3002<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Polymer melt flow and gas penetration in gas-assisted injection molding of a thin part with gas channel design C.C. Shia, F.H. Kuo, S.H. Ke</p><p> 3003 -- 3019</p><p> Thermal development of radiatively active pipe flow with nonaxisymmetric circumferential convective heat loss Y.K. Taik, W.B. Seung</p><p> 3021 -- 3033</p><p> Second-moment closure for turbulent scalar transport at various Prandtl numbers N. Shikazono, N. Kasagi</p><p> 3035 -- 3043</p><p> A review of semi-analytical solutions for flame impingement heat transfer C.E. Baukal, B. Gebhart</p><p> 3045 -- 3055</p><p> Stagnation point flow of a chemically reactive fluid in a catalytic porous bed H.C. B., W. H., C. P.</p><p> 3057 -- 3066<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Stability of boiling systems J. Blum, W. Marquardt, H. Auracher</p><p> 3067 -- 3074</p><p> Numerical simulation of heat transfer in floating zone single crystal growth process with radio-frequency induction heating Y. Masuda, T. Tsukada, M. Hozawa, N. Imaishi, N. Ohnishi</p><p> 3075 -- 3078</p><p> Experiments on heat transfer of smooth and swirl tubes under one-sided heating conditions M. Araki, M. Ogawa, T. Kunugi, K. Satoh, S. Suzuki</p><p> 3079 -- 3082</p><p> Numerical and experimental studies of three-dimensional plate-fin and tube heat exchangers J. Jiin-Yuh, W. Mu-Cheng, C. Wen-Jeng</p><p> 3083 -- 3083</p><p> Heat conduction in a semi-infinite solid due to time-dependent laser source S.M. Zubair, M.A. Chaudhry</p><p> 3085 -- 3085<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 39 (13) 1996 Thermal effect on the recirculation zone in sudden-expansion gas flows G. Zeng-Yuan, L. De-Yu, L. Xin-Gang</p><p> 2619 -- 2624</p><p> Forced convection in-tube steam condensation in the presence of noncondensable gases H.A. Hasanein, M.S. Kazimi, M.W. Golay</p><p> 2625 -- 2639</p><p> Heat and mass transfer in wooden dowels during a simulated fire: an experimental and analytical study J.A. Mardini, A.S. Lavine, V.K. Dhir</p><p> 2641 -- 2651</p><p> An integral approximate solution of heat transfer in the grinding process Z. Yuwen, A. Faghri</p><p> 2653 -- 2662</p><p> Natural convection of high Prandtl number fluids with variable viscosity in a vertical slot Y.J. Y., F.C. C.</p><p> 2663 -- 2670<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Cooperating thermosolutal convection in enclosures--I. Scale analysis and mass transfer R. Bennacer, D. Gobin</p><p> 2671 -- 2681</p><p> Cooperating thermosolutal convection in enclosures--II. Heat transfer and flow structure D. Gobin, R. Bennacer</p><p> 2683 -- 2697</p><p> A bifurcation study of double diffusive flows in a laterally heated stably stratified liquid layer H.A. Dijkstra, E.J. Kranenborg</p><p> 2699 -- 2710</p><p> Heat transfer in a pressurized circulating fluidized bed P. Basu, C. Leming, C. Kefa</p><p> 2711 -- 2722</p><p> Modeling the local and average heat transfer coefficient for an isothermal vertical flat plate with assisting and opposing combined forced and natural convection C.J. Kobus, G.L. Wedekind</p><p> 2723 -- 2733<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> The existence of an asymptotic thermally developed region for laminar forced convection in a circular duct A. Barletta, E. Zanchini</p><p> 2735 -- 2744</p><p> Mean fluid temperatures in direct contact heat exchangers without phase change J. Mitrovic, K. Stephan</p><p> 2745 -- 2750</p><p> Flow and transport in a multilayered fluid system--I. Influence of 1- or -g environment J.-P. Fontaine, R.L. Sani</p><p> 2751 -- 2770</p><p> Heat transfer and fluid dynamics during the collision of a liquid droplet on a substrate--I. Modeling Z. Z., D. Poulikakos, J. Fukai</p><p> 2771 -- 2789</p><p> Heat transfer and fluid dynamics during the collision of a liquid droplet on a substrate--II. Experiments Z. Z., D. Poulikakos, J. Fukai</p><p> 2791 -- 2802<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Turbulence model for flow through porous media T. Masuoka, Y. Takatsu</p><p> 2803 -- 2809</p><p> Monte Carlo simulation of radiative heat transfer in arrays of fixed discrete surfaces using cell-to-cell photon transport B.J. Palmer, M.K. Drost, J.R. Welty</p><p> 2811 -- 2819</p><p> Weakly nonlinear stability analysis of condensate film flow down a vertical cylinder 2821 -- 2829 H. Chen-I, C. Cha'o-Kuang, T. Jung-Shun Natural convection of non-Newtonian fluids along a wavy vertical plate including the magnetic field effect Y. Yue-Tzu, C. Cha'o-Kuang, L. Mong-Tung</p><p> 2831 -- 2842</p><p> Predicting the average heat transfer coefficient for an isothermal vertical circular disk with assisting and opposing combined forced and natural convection G.L. Wedekind, C.J. Kobus</p><p> 2843 -- 2845</p><p> Flow and transport in a multilayered fluid system--II. Influence of thermal boundary conditions and encapsulant J.-P. Fontaine, R.L. Sani</p><p> 2846 -- 2852<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 39 (12) 1996 Heat transfer in separated and impinging turbulent flows K. Heyerichs, A. Pollard</p><p> 2385 -- 2400</p><p> A comparison of the reduced Galerkin and pseudo-spectral methods for simulation of steady Rayleigh-Benard convection L.E. Howle</p><p> 2401 -- 2407</p><p> Dynamics of vapour bubbles in nucleate boiling Yu.A. Buyevich, B.W. Webbon</p><p> 2409 -- 2426</p><p> Spherical vapor bubble growth in uniformly superheated liquids</p><p> 2427 -- 2447</p><p> S.L. Ho, H. Jr Merte Hemispherical vapor bubble growth in microgravity: experiments and model S.L. Ho, H. Jr Merte</p><p> 2449 -- 2461<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Investigation of effects of wave motion on the performance of a falling film absorber H. Sabir, K.O. Suen, G.A. Vinnicombe</p><p> 2463 -- 2472</p><p> Mixed convection in straight and curved channels with buoyancy orthogonal to the forced flow P.M. Ligrani, C. S.</p><p> 2473 -- 2484</p><p> Direct simulations of turbulent unstratified natural convection in a vertical slot for Pr = 0.71 J.R. Phillips</p><p> 2485 -- 2494</p><p> Nucleate pool boiling heat transfer of pure liquids at low to moderate heat fluxes R.J. Benjamin, A.R. Balakrishnan</p><p> 2495 -- 2504</p><p> Prediction of turbulent heat transfer in rotating smooth square ducts S. Dutta, M.J. Andrews, H. Je-Chin</p><p> 2505 -- 2514<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Artificial roughness effects on turbulent transfer coefficients in the entrance region of a circular tube B. Mottahed, M. Molki</p><p> 2515 -- 2523</p><p> Methode de Nachtsheim et Swigert etendue a l'etude des couches limites laminaires bidimensionnelles planes ou axisymetriques non isothermes, avec effusion G.A.C. Franca, M. Fortes, A. Lallemand</p><p> 2525 -- 2537</p><p> How to determine critical Marangoni number in half floating zone convection L.Y. Y., L. F., R.H. W.</p><p> 2539 -- 2544</p><p> Free convection fluid flow due to a periodically heated and cooled vertical flat plate embedded in a porous media R. Bradean, D.B. Ingham, P.J. Heggs, I. Pop</p><p> 2545 -- 2557</p><p> In-tube evaporation of HCFC-22 in a 9.52 mm micro-fin/smooth tube S.K. C., C.W. C.</p><p> 2559 -- 2569<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> The linear stability in systems with intensive mass transfer--I. Gas (liquid)-solid Chr. Boyadjiev, I. Halatchev, B. Tchavdarov</p><p> 2571 -- 2580</p><p> The linear stability in systems with intensive mass transfer--II. Gas-liquid Chr. Boyadjiev, I. Halatchev</p><p> 2581 -- 2585</p><p> The linear stability in systems with intensive mass transfer--III. Liquid-liquid I. Halatchev, Chr. Boyadjiev</p><p> 2587 -- 2592</p><p> The linear stability in systems with intensive mass transfer--IV. Gas-liquid film flow Chr. Boyadjiev, I. Halatchev</p><p> 2593 -- 2597</p><p> Convective heat transfer and flow friction for water flow in microchannel structures F.P. X., G.P. Peterson</p><p> 2599 -- 2608<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Shape sensitivity analysis for nonlinear steady-state heat conduction problems A. S_uzalec, M. Kleiber</p><p> 2609 -- 2613</p><p> A. S_uzalec, M. Kleiber Inverse analysis of transient turbulent forced convection inside parallel-plate ducts B.L. F., M.N. Ozisik</p><p> 2615 -- 2618</p><p> Volume (issue): 39 (11) 1996 Experimental study of the fundamental properties of reciprocating chillers and their relation to thermodynamic modeling and chiller design H.T. Chua, K.C. Ng, J.M. Gordon</p><p> 2195 -- 2204</p><p> A numerical study of droplet-vortex interactions in an evaporating spray T.W. Park, S.K. Aggarwal, V.R. Katta</p><p> 2205 -- 2219</p><p> Transient conjugate condensation process on a vertical plate with finite thermal inertia C. Trevino, F. Mendez</p><p> 2221 -- 2230<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Heat transfer across a vertical wall separating two fluids at different temperatures C. Trevino, F. Mendez, F.J. Higuera</p><p> 2231 -- 2241</p><p> Inclined and horizontal wall plumes L. H.-T., C. J.-J., K. L.-W., Y. W.-S., C. Y.-M.</p><p> 2243 -- 2252</p><p> Convective heat transfer in rotating ribbed tubes W.D. Morris, K.F. Rahmat-Abadi</p><p> 2253 -- 2266</p><p> Heat transfer correlation for natural convection in a meniscus-shaped cavity and its application to contact melting process H.S. Kim, C.-J. Kim, S.T. Ro</p><p> 2267 -- 2270</p><p> Bulk flow pulsations and film cooling--I. Injectant behavior P.M. Ligrani, R. Gong, J.M. Cuthrell, J.S. Lee</p><p> 2271 -- 2282<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Bulk flow pulsations and film cooling--II. Flow structure and film effectiveness P.M. Ligrani, R. Gong, J.M. Cuthrell, J.S. Lee</p><p> 2283 -- 2292</p><p> High temperature heat transfer of separated flow over a sudden-expansion with base mass injection Y. Jing-Tang, T. Chun-Hung</p><p> 2293 -- 2301</p><p> Variation of temperature and velocity fluctuations in turbulent thermal convection over horizontal surfaces R.J. Adrian</p><p> 2303 -- 2310</p><p> Thin-film-heater thermal conductivity apparatus and measurement of thermal conductivity of silica aerogel Z. J. S. Q., P.C. Stevens, A.J. Hunt, R. Grief, L. Daehee</p><p> 2311 -- 2317</p><p> The influence of sorption isotherms on the drying of porous materials A.J.J. Van Der Zanden, A.M.E. Schoenmakers</p><p> 2319 -- 2327<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Evaluating convective heat transfer coefficients using neural networks K. Jambunathan, S.L. Hartle, S. Ashforth-Frost, V.N. Fontama</p><p> 2329 -- 2332</p><p> Natural convection for the melting of ice in porous media in a rectangular enclosure C. Wen-Jeng, Y. Dong-Fang</p><p> 2333 -- 2348</p><p> Two-point quasifractional approximants for effective conductivity of a simple cubic lattice of spheres I. Andrianov, V. Danishevskyi, S. Tokarzewski</p><p> 2349 -- 2352</p><p> Cooling of a superheated surface with a jet mist flow Yu.A. Buyevich, V.N. Mankevich</p><p> 2353 -- 2362</p><p> Self-oscillating regimes of nucleate, transition and film boiling Yu.A. Buyevich, I.A. Natalukha</p><p> 2363 -- 2373<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Effect of aspect ratio on mass transfer from a rotating cup N.K. Won, M.H. Jae, H. Ozoe</p><p> 2375 -- 2377</p><p> Stability of a fluid layer with uniform heat generation and convection boundary conditions S. Tae-Ho</p><p> 2378 -- 2382</p><p> Volume (issue): 39 (10) 1996 Measuring thermal properties with the parallel wire method: a comparison of mathematical models G. Grazzini, C. Balocco, U. Lucia</p><p> 2009 -- 2013</p><p> Turbulent forced convection in a helicoidal pipe with substantial pitch Y. G., M.A. Ebadian</p><p> 2015 -- 2022</p><p> Experimental and statistical investigation of changes in surface roughness associated with spray quenching J.D. Bernardin, I. Mudawar</p><p> 2023 -- 2037<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Multi-zone simulation of the Bridgman growth process of -NiAl crystal O. Hong, S. Wei</p><p> 2039 -- 2051</p><p> Experimental and numerical study of buoyancy-induced flow and heat transfer in an open annular cavity C.P. Desai, K. Vafai</p><p> 2053 -- 2066</p><p> Interfacial wave stability of concurrent two-phase flow in a horizontal channel W. Q., M. Ishii</p><p> 2067 -- 2075</p><p> Natural convection from a cylinder with multiple, low-conductivity, longitudinal baffles G.N. Facas, H.L. Brown</p><p> 2077 -- 2086</p><p> Buoyancy induced flow and heat transfer through a vertical annulus A.K. Mohanty, M.R. Dubey</p><p> 2087 -- 2093<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> The effects of liquid-vapor coupling and non-Darcian transport on asymmetrical disk-shaped heat pipes N. Zhu, K. Vafai</p><p> 2095 -- 2113</p><p> Radiation-conduction interaction: an investigation on silica aerogels U. Heinemann, R. Caps, J. Fricke</p><p> 2115 -- 2130</p><p> A thermal model for the rotary kiln including heat transfer within the bed A.A. Boateng, P.V. Barr</p><p> 2131 -- 2147</p><p> Velocity near-field of variable density turbulent jets</p><p> 2149 -- 2164</p><p> M. Amielh, T. Djeridane, F. Anselmet, L. Fulachier Thermal enhancement in laminar channel flow with a porous block F. Wu-Shung, H. Hsin-Chien, L. Wei-Yan</p><p> 2165 -- 2175<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> The effect of natural convection in liquid phase mass transport coefficient measurements: the case of thermosolutal convection C. Barat, J.P. Garandet</p><p> 2177 -- 2182</p><p> Procedures d'utilisation d'un conductivimetre a barre divisee pour des echantillons grenus: application au cas des granites M. Danis, C. Gobbe, J. Royer</p><p> 2183 -- 2187</p><p> Thermal ignition in buoyancy-driven boundary layer flows along inclined hot plates J.S. W., C.L. M.</p><p> 2187 -- 2190</p><p> Approximate method for combined forced-convection and radiation heat transfer in absorbing and emitting gases flowing in a black, plane-parallel duct K. Kamiuto, K. Kanemaru</p><p> 2191 -- 2193</p><p> Volume (issue): 39 (9) 1996 Heat sinks with sloped plate fins in natural and forced convection G. Ledezma, A. Bejan</p><p> 1773 -- 1783<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Numerical simulation of heat penetration through a vertical rectangular phase change material/air composite cell J.H. C., H.C. C.</p><p> 1785 -- 1795</p><p> Cold heat-release characteristics of phase-change emulsion by air-emulsion directcontact heat exchange method H. Inaba, S. Morita</p><p> 1797 -- 1803</p><p> Measurements in buoyancy-opposing laminar flow over a vertical forward-facing step H.I. Abu-Mulaweh, B.F. Armaly, S.C. T.</p><p> 1805 -- 1813</p><p> Convective heat transfer of rotating spheres and spheroids with non-uniform surface temperatures Z. Guoguang, R. List</p><p> 1815 -- 1826</p><p> Advanced micro-fin tubes for evaporation L.M. Chamra, R.L. Webb, M.R. Randlett</p><p> 1827 -- 1838<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Advanced micro-fin tubes for condensation L.M. Chamra, R.L. Webb, M.R. Randlett</p><p> 1839 -- 1846</p><p> Thermal stability of horizontally superposed porous and fluid layers in a rotating system J.J. Jong, Y.K. Kuang, H.H. Cheng</p><p> 1847 -- 1857</p><p> Local analytical discrete ordinate method for the solution of the radiative transfer equation A.A. Mohamad</p><p> 1859 -- 1864</p><p> Numerical modelling of variable density turbulent jets A. Gharbi, E. Ruffin, F. Anselmet, R. Schiestel</p><p> 1865 -- 1882</p><p> Analysis of transport phenomena governing interfacial bonding and void dynamics during thermoplastic tow-placement R. Pitchumani, S. Ranganathan, R.C. Don, J.W. Jr Gillespie, M.A. Lamontia</p><p> 1883 -- 1897<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Estimation of the maximum heat flux in the inverted meniscus type evaporator of a flat miniature heat pipe D. Khrustalev, A. Faghri</p><p> 1899 -- 1909</p><p> Jet impingement drying of a moist porous solid N.D. Francis, W.J. Wepfer</p><p> 1911 -- 1923</p><p> Isothermal liquid transport in porous media: capillary hysteresis effects W. Bussing, H.-J. Bart, R. Germerdonk</p><p> 1925 -- 1934</p><p> Etude experimentale des coefficients d'echange d'un film de refroidissement sur plaque non-athermane: effet de la geometrie d'injection E. Dorignac, J.-J. Vullierme</p><p> 1935 -- 1951</p><p> Transient heat transfer from surfaces of defined roughness into liquid nitrogen V. Drach, N. Sack, J. Fricke</p><p> 1953 -- 1961<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Laminar flow and forced convection heat transfer in plate-type monolith structures by a finite element solution R. Giudici, E. Tronconi</p><p> 1963 -- 1978</p><p> Mechanical quasi-equilibrium and thermovibrational convective instability in an inclined fluid layer V.A. Demin, G.Z. Gershuni, I.V. Verkholantsev</p><p> 1979 -- 1991</p><p> Performance and optimum dimensions of different cooling fins with a temperaturedependent heat transfer coefficient K. Laor, H. Kalman</p><p> 1993 -- 2003</p><p> Volume (issue): 39 (8) 1996 Heat and mass transfer bibliography--Polish works (1993-1994) J. Bandrowski, J. Zio_o</p><p> 1551 -- 1554</p><p> Creeping flow of a Bingham plastic through axisymmetric sudden contractions with viscous dissipation K.J. Hammad, G.C. Vradis</p><p> 1555 -- 1567<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Theoretical analysis for axisymmetric mixed convection between rotating coaxial disks C.Y. Soong</p><p> 1569 -- 1583</p><p> Non-Fourier heat conduction in a finite medium under periodic surface thermal disturbance D.W. Tang, N. Araki</p><p> 1585 -- 1590</p><p> The inviscid stagnation-flow solidification problem R.H. Rangel, X. Bian</p><p> 1591 -- 1602</p><p> Laminar natural convection heat transfer from isothermal spheres H. Jia, G. Gogos</p><p> 1603 -- 1615</p><p> Effect of valve lift and disk surface on two-phase critical flow at hot water relief valve</p><p> 1617 -- 1624<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> M. Osakabe, M. Isono An extract analytical solution for the extended turbulent Graetz problem with Dirichlet wall boundary conditions for pipe and channel flows B. Weigand</p><p> 1625 -- 1637</p><p> Convection and stability in a rotating porous layer with alternating direction of the centrifugal body force P. Vadasz</p><p> 1639 -- 1647</p><p> Experimental study of unstable mixed convection of air in a bottom heated horizontal rectangular duct W.L. Lin, T.F. Lin</p><p> 1649 -- 1663</p><p> Numerical modeling of materials processing in microwave furnaces J. Clemens, C. Saltiel</p><p> 1665 -- 1675</p><p> Improving the performance of adsorption heat exchangers using a finned structure A. Hajji, S. Khalloufi</p><p> 1677 -- 1686<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Effect of surface segregation kinetics on the effective thermal conductivity of porous ceramics T. Gambaryan-Roisman, E.Ya. Litovsky, M. Shapiro, A. Shavit</p><p> 1687 -- 1695</p><p> Numerical simulation of transitional aiding mixed convective air flow in a bottom heated inclined rectangular duct C.H. C., F.L. T.</p><p> 1697 -- 1710</p><p> Finite element simulations involving simultaneous multiple interface fronts in phase change problems T. Ouyang, K.K. Tamma</p><p> 1711 -- 1718</p><p> Heat transfer enhancement in a converging passage with discrete ribs H. Zhengjun, S. Jiarui</p><p> 1719 -- 1727</p><p> Convective heat transfer coefficients at a plane surface on a full-scale building facade D.L. Loveday, A.H. Taki</p><p> 1729 -- 1742<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Modeling of non-isothermal gas flow through a heterogeneous medium A. Buikis, N. Ulanova</p><p> 1743 -- 1748</p><p> Surface nonisothermness effect on profiled surface condensation enhancement V.G. Rifert, Ya.Ye. Trokoz</p><p> 1749 -- 1754</p><p> The effect of the tube diameter on the critical heat flux in subcooled flow boiling G.P. Celata, M. Cumo, A. Mariani</p><p> 1755 -- 1757</p><p> Liquid nitrogen boiling around a temperature controlled heated wire M.C. Duluc, M.X. Francois, J.P. Brunet</p><p> 1758 -- 1762</p><p> Effect of transverse convex curvature on heat transfer from heated cylinders with axisymmetric backward-facing steps C.K. K., L. Y.</p><p> 1763 -- 1767<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Thermal erosion of magnetoplasmadynamic thruster cathode R.C. Mehta, S. Andrews, P.V. Ramachandran</p><p> 1767 -- 1769</p><p> Volume (issue): 39 (7) 1996 Mixed convection in a vertical parallel-plate channel partially filled with porous media of high permeability C. Wen-Jeng, C. Wen-Lung</p><p> 1331 -- 1342</p><p> Modeling the effective thermal conductivity of random packing of spheres through densification C. Argento, D. Bouvard</p><p> 1343 -- 1350</p><p> Conjugate forced convection in crossflow over a cylinder array with volumetric heating W. Mingyu, J.G. Georgiadis</p><p> 1351 -- 1361</p><p> Numerical study of double-diffusive natural convection in a porous cavity using the Darcy-Brinkman formulation B. Goyeau, J.-P. Songbe, D. Gobin</p><p> 1363 -- 1378<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Boiling of droplets on a hot surface in low gravity M.Q. Y., S. Chandra</p><p> 1379 -- 1393</p><p> Local jet impingement boiling heat transfer D.H. Wolf, F.P. Incropera, R. Viskanta</p><p> 1395 -- 1406</p><p> Natural convection in partitioned two-dimensional enclosures at higher Rayleigh numbers K. Hanjalic, S. Kenjeres, F. Durst</p><p> 1407 -- 1427</p><p> Thermophoretic deposition including an application to the outside vapor deposition process K.W. C., R. Greif</p><p> 1429 -- 1438</p><p> Transient natural convection heat transfer between concentric and vertically eccentric spheres P.C. Cheng, R.C. Wen</p><p> 1439 -- 1452<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Turbulent buoyant thermal in a density-stratified atmosphere G.M. Makhviladze, J.P. Roberts, S.E. Yakush</p><p> 1453 -- 1462</p><p> Radiative exchange between square parallel channels in a concentric monolith structure D.J. Worth, A. Spence, P.I. Crumpton, S.T. Kolaczkowski</p><p> 1463 -- 1474</p><p> A mechanistic model for heat transfer from a wall to a fluid G. Hetsroni, L.P. Yarin, D. Kaftori</p><p> 1475 -- 1478</p><p> Combined buoyancy effects of thermal and mass diffusion on laminar forced convection in horizontal rectangular ducts Y. Wei-mon</p><p> 1479 -- 1488</p><p> Experimental study of heat transfer to boiling binaries in a reboiler tube M. Kamil, S.S. Alam</p><p> 1489 -- 1501<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Application of the boundary element method to inverse heat conduction problems D. Lesnic, L. Elliott, D.B. Ingham</p><p> 1503 -- 1517</p><p> Stable vortex structures in axisymmetric convective torch during oscillating combustion P.P. Khramtsov, O.G. Martynenko, V.S. Burak, I.A. Shikh</p><p> 1519 -- 1525</p><p> Conjugate free convection on a vertical surface J.H. Merkin, I. Pop</p><p> 1527 -- 1534</p><p> Irreversibility analysis of a sieve tray in a distillation column S. Ray, S.P. Sengupta</p><p> 1535 -- 1542</p><p> Relaxation heat conduction and generation: an analysis of the semi-infinite body case by method of Laplace transforms L. Malinowski</p><p> 1543 -- 1549<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 39 (6) 1996 Amplitude effect on convection induced by time-periodic horizontal heating B.V. Antohe, J.L. Lage</p><p> 1121 -- 1133</p><p> A transient spherical source method to determine thermal conductivity of liquids and gels U.B. Holeschovsky, G.T. Martin, J.W. Tester</p><p> 1135 -- 1140</p><p> Mixed convection from a vertical cylinder embedded in a porous medium: nonDarcy model T.K. Aldoss, M.A. Jarrah, B.J. Al-Sha'er</p><p> 1141 -- 1148</p><p> Measurement and use of bi-directional reflectance J.R. Zaworski, J.R. Welty, M.K. Drost</p><p> 1149 -- 1156</p><p> Non-Darcy mixed convection along nonisothermal vertical surfaces in porous media C. Chien-Hsin, S.C. T., C. Cha'o-Kuang</p><p> 1157 -- 1164<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Nusselt numbers in laminar flow for H2 boundary conditions M. Spiga, G.L. Morini</p><p> 1165 -- 1174</p><p> Maximum power from fluid flow A. Bejan</p><p> 1175 -- 1181</p><p> Numerical simulation of unsteady convective intrusions in a thermohaline stratification J. Wright, W. Shyy</p><p> 1183 -- 1201</p><p> Transient conjugated mixed convection inside ducts with convection from the ambient L. Kuan-Tzong, Y. Wei-Mon</p><p> 1203 -- 1211</p><p> Thermodynamic optimization of cooling techniques for electronic packages A. Bejan, G.A. Ledezma</p><p> 1213 -- 1221<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Conjugate mixed convection in a channel: modified five percent deviation rule Y.C. C., J.K. S.</p><p> 1223 -- 1234</p><p> Temperature and soot concentration in a high soot density flame M.A. Al-Nimr, V.S. Arpaci, Y.S. Najjar</p><p> 1235 -- 1241</p><p> Transient three-dimensional convection of air in a differentially heated rotating cubic cavity L.L. T., F.L. T.</p><p> 1243 -- 1255</p><p> Flow boiling of binary mixtures in microchanneled plates</p><p> 1257 -- 1264</p><p> F.P. X., G.P. Peterson, X.W. B. Thermal entrance region for laminar forced convection in a circular tube with a power-law wall heat flux A. Barletta, E. Zanchini</p><p> 1265 -- 1272<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Determination of moisture diffusivity in porous media using moisture concentration profiles L. Pel, H. Brocken, K. Kopinga</p><p> 1273 -- 1280</p><p> Efficient evaluation of diffuse view factors for radiation V.R. Rao, V.M.K. Sastri</p><p> 1281 -- 1286</p><p> The turbulent Prandtl number in the near-wall region for low-Prandtl-number gas mixtures D.M. McEligot, M.F. Taylor</p><p> 1287 -- 1295</p><p> Free convective mass transfer at down-pointing pyramidal electrodes J. Krysa, A.A. Wragg</p><p> 1297 -- 1305</p><p> Hyperbolic heat conduction and thermal resonances in a cylindrical solid carrying a steady-periodic electric field A. Barletta, E. Zanchini</p><p> 1307 -- 1315<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Heat transfer behavior of Reiner-Rivlin fluids in rectangular ducts X.G. S., J.P. Hartnett</p><p> 1317 -- 1324</p><p> The pressure and velocity fields in the wick structure of a localized heated flat plate heat pipe Y.H. X., Y.L. C.</p><p> 1325 -- 1330</p><p> Volume (issue): 39 (5) 1996 Heat transfer--a review of 1993 literature 885 -- 963 J.V.R. Heberlein, P.J. Strykowski, K.K. Tamma, T.H. Kuehn, A. Bar-Cohen, E.R.G. Eckert, D.L. Hofeldt, R.J. Goldstein, K.A. Stelson, W.E. Ibele, J.H. Davidson, S.V. Patankar, T.W. Simon Performance of direct-contact heat and mass exchangers with steam-gas mixtures at subatmospheric pressures M.C. De Andres, E. Hoo, F. Zangrando</p><p> 965 -- 973</p><p> Numerical and experimental investigation of direct electric conduction in a channel flow A.O. El Moctar, H. Peerhossaini, J.P. Bardon</p><p> 975 -- 993</p><p> Numerical simulation of the transient moisture transfer through porous insulation N.E. Wijeysundera, F.Z. B., M. Iqbal, E.G. Hauptmann</p><p> 995 -- 1004<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Mathematical modeling and experimental measurements of moving boundary problems associated with exothermic heat of mixing H. Hu, S.A. Argyropoulos</p><p> 1005 -- 1021</p><p> Transient heating and vaporization of a cool dense cloud of droplets in hot supercritical surroundings L.J. Tsung, C. Wei-Tang</p><p> 1023 -- 1031</p><p> Comparison of correlations and experiment in opposing flow, mixed convection heat transfer in a vertical tube with Grashof number variation D.D. Joye</p><p> 1033 -- 1038</p><p> D.D. Joye Inverse finite element reduced mesh method for predicting multi-dimensional phase change boundaries and nonlinear solid phase heat transfer R.G. Keanini, N.N. Desai</p><p> 1039 -- 1049</p><p> Thermal analysis of a helical heat exchanger for ground thermal energy storage in arid zones Y. Rabin, E. Korin</p><p> 1051 -- 1065<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Conjugate free convection due to a heated vertical plate M. Vynnycky, S. Kimura</p><p> 1067 -- 1080</p><p> Chaotic behavior and heat transfer performance of the natural convection around a hot horizontal cylinder affected by a flat ceiling H. Koizumi, I. Hosokawa</p><p> 1081 -- 1091</p><p> Local convective mass transfer on circular cylinder with transverse annular fins in crossflow J.S. Hyung, S.Y. Jung, S.P. Tae</p><p> 1093 -- 1101</p><p> Spatial distribution of gas particles emerging from a nonisothermally heated cylindrical channel with heterogeneous processes on the surface V.V. Levdansky, V.G. Leitsina, H. Van Viet</p><p> 1103 -- 1110</p><p> Two-flux method for transient radiative transfer in a semitransparent layer R. Siegel</p><p> 1111 -- 1115<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Comments on _Foundation of the interfacial area transport equation and its closure relations_ A.A. Shraiber</p><p> 1117 -- 1117</p><p> Volume (issue): 39 (4) 1996 Computation of permeability and dispersivities of solute or heat in periodic porous media K.L. Cheo, S. Chin-Cheng, C.M. Chiang</p><p> 661 -- 676</p><p> Determination of temperature field around a rapidly moving crack-tip in an elasticplastic solid L. Wen, D. Xiaomin, A.J. Rosakis</p><p> 677 -- 690</p><p> Analysis for the optimal performance of three-channel split-flow heat exchangers L.K. C., G.L. Wedekind</p><p> 691 -- 705</p><p> Local heat transfer in a rotating two-pass ribbed triangular duct with two model orientations S. Dutta, H. Je-Chin, P.L. C.</p><p> 707 -- 715<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Semi-analytical solution of thermal energy storage system with conjugate laminar forced convection Z. Yuwen, A. Faghri</p><p> 717 -- 724</p><p> Enhancement of energy charge-discharge rates in composite slabs of different phase change materials G. Zhen-Xiang, A.S. Mujumdar</p><p> 725 -- 733</p><p> An investigation and comparative study of the pressure drop in air-water two-phase flow in vertical helicoidal pipes C.X. R., A. Awwad, F.D. Z., M.A. Ebadian, H.M. Soliman</p><p> 735 -- 743</p><p> Laminar mixed convection in vertical elliptic ducts K. Velusamy, V.K. Garg</p><p> 745 -- 752</p><p> Evaluation of the relaxation time of heat and mass exchange in the liquid-vapour bubble flow Z. Bilicki, R. Kwidzinski, S.A. Mohammadein</p><p> 753 -- 759<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Numerical analysis of heat transfer in an air-filled bayonet tube under laminar conditions H. Minhas, G.S.H. Lock</p><p> 761 -- 769</p><p> An experimental study of boiling on a wicked surface M.P. Mughal, O.A. Plumb</p><p> 771 -- 777</p><p> Experimental study of free convection and radiation in horizontal fin arrays V.R. Rao, S.P. Venkateshan</p><p> 779 -- 789</p><p> Condensation of R-12 in small hydraulic diameter extruded aluminum tubes with and without micro-fins Y. C-Y., R.L. Webb</p><p> 791 -- 800</p><p> Friction pressure drop of R-12 in small hydraulic diameter extruded aluminum tubes with and without micro-fins Y. C-Y., R.L. Webb</p><p> 801 -- 809<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> An investigation of dependent/independent scattering regimes using a discrete dipole approximation Z. Ivezic, M.P. Menguc</p><p> 811 -- 822</p><p> A boundary integral equation method for nonlinear heat conduction problems with temperature-dependent material properties T. Goto, M. Suzuki</p><p> 823 -- 830</p><p> Thermal contact conductance of tool steel and comparison with model M.R. Sridhar, M.M. Yovanovich</p><p> 831 -- 839</p><p> Thermosolutal transport phenomena in large Lewis number electrochemical systems H.D. Jiang, S. Ostrach, Y. Kamotani</p><p> 841 -- 850</p><p> Parametric study of buoyancy-induced flow and heat transfer from L-shaped corners with asymmetrically heated surfaces R.B. Chinnakotla, D. Angirasa, R.L. Mahajan</p><p> 851 -- 865<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Numerical study of steady laminar fully developed fluid flow and heat transfer in rectangular and elliptical ducts rotating about a parallel axis M. Mahadevappa, V.R. Rao, V.M.K. Sastri</p><p> 867 -- 875</p><p> Nonlinear stability analysis of magnetohydrodynamic condensate film flow down a vertical plate with constant heat flux H. Chen-I, T. Jung-Shun, C. Cha'O-Kuang</p><p> 877 -- 884</p><p> Volume (issue): 39 (3) 1996 Computation of turbulent evaporating sprays with well-specified measurements: a sensitivity study on droplet properties</p><p> 441 -- 454</p><p> sensitivity study on droplet properties X.-Q. Chen, J.C.F. Pereira An explicit algebraic heat-flux model for the temperature field R.M.C. So, T.P. Sommer</p><p> 455 -- 465</p><p> Steady natural convection in a double layer of immiscible liquids with density inversion J.N. Koster, KY Nguyen</p><p> 467 -- 478<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Enhancement of natural convection heat transfer from an array of discrete heat sources T.J. Heindel, F.P. Incropera, S. Ramadhyani</p><p> 479 -- 490</p><p> Theory of thermal hydraulic quenchback A. Shajii, J.P. Freidberg</p><p> 491 -- 501</p><p> Laminar heat transfer in square duct flow of aqueous CMC solutions L. Cheng-Xian, K. Shao-Yen, F.K. Tsou</p><p> 503 -- 510</p><p> Unsteady mixed convection about a rotating circular cylinder with small fluctuations in the free-stream velocity H.D. Nguyen, S. Paik, R.W. Douglass</p><p> 511 -- 525</p><p> Studies on molecular diffusion and natural convection in a multicomponent gas system T. Takeda, M. Hishida</p><p> 527 -- 536<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Linear stability of Couette flow with rotating inner cylinder and radially nonuniform internal heat sources A.A. Kolyshkin, R. Vaillancourt</p><p> 537 -- 545</p><p> An experimental investigation on natural and forced convection in liquid metals S.A. Argyropoulos, A.C. Mikrovas</p><p> 547 -- 561</p><p> Convection naturelle en cavite carree differentiellement chauffee: investigation ex Ra = 1,69 _ 109 S. Mergui, F. Penot</p><p> 563 -- 574</p><p> Solid-propellant fire in an enclosure fitted with a ceiling safety-vent B. Porterie, M. Larini, F. Giroud, J.-C. Loraud</p><p> 575 -- 601</p><p> Investigation of three-dimensional thermocapillary convection in a cubic container by a multi-grid method V. Sa_, H.C. Kuhlmann, H.J. Rath</p><p> 603 -- 613<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Buoyancy-induced flow adjacent to a periodically heated and cooled horizontal surface in porous media R. Bradean, D.B. Ingham, P.J. Heggs, I. Pop</p><p> 615 -- 630</p><p> Growth of vapour bubbles in boiling polymer solutions--I. Rheological and diffusional 631 -- 638 effects Z.P. Shulman, S.P. Levitskiy Growth of vapour bubbles in boiling polymer solutions--II. Nucleate boiling heat transfer S.P. Levitskiy, B.M. Khusid, Z.P. Shulman</p><p> 639 -- 644</p><p> Rheological factors in a thermal problem of local superhigh frequency hyperthermia Z.P. Shulman, A.A. Makhanyok</p><p> 645 -- 652</p><p> Z.P. Shulman, A.A. Makhanyok Bubble detachment criteria: some criticism of _Das Abreissen von Dampfblasen an festen Heizflachen_ C.W.M. van der Geld</p><p> 653 -- 657</p><p> Analytical comparison and criteria for heat and mass transfer models in metal hybride packed beds AV. Kuznetsov, K. Vafai</p><p> 659 -- 659<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 39 (2) 1996 Three-dimensional, transient model for laser machining of ablating/decomposing materials M.F. Modest</p><p> 221 -- 234</p><p> Homogeneous nucleation of vapor by depressurization at constant volume C.D. Sulfredge, K.A. Tagavi, L.C. Chow</p><p> 235 -- 246</p><p> Thermocapillary flow effects on convective droplet evaporation A.T. Shih, C.M. Megaridis</p><p> 247 -- 257</p><p> Steady solution selection and existence in geothermal heat pipes--I. The convective case M.J. McGuinness</p><p> 259 -- 274</p><p> Film boiling from a downward-facing curved surface in saturated and subcooled water M.S. El-Genk, A.G. Glebov</p><p> 275 -- 288<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Compositionally convective and morphological instabilities of a binary fluid layer under freezing with nonlinear analysis J.J. Jou, K.Y. Kung, C.H. Hsu</p><p> 289 -- 298</p><p> Developing three-dimensional laminar mixed convection in a circular tube inserted with longitudinal strips S. Hsieh, M. Wen</p><p> 299 -- 310</p><p> The optimal spacing of cylinders in free-stream cross-flow forced convection G. Stanescu, A.J. Fowler, A. Bejan</p><p> 311 -- 317</p><p> Convective heat transfer in porous and overlying fluid layers heated from below S.J. Kim, C.Y. Choi</p><p> 319 -- 329</p><p> The second moments, spectra and correlation functions of velocity and temperature fluctuations in the gradient sublayer of a retarded boundary layer B.A. Kader</p><p> 331 -- 346<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Effects of a moving thermal wave on Benard convection in a horizontal saturated porous layer M. Mamou, L. Robillard, E. Bilgen, P. Vasseur</p><p> 347 -- 354</p><p> Surface transient temperature inversion for hidden corrosion characterisation: theory and applications V. Vavilov, E. Grinzato, P.G. Bison, S. Marinetti, M.J. Bales</p><p> 355 -- 371</p><p> Permanent three-dimensional patterns in turbulent flows with essentially twodimensional configurations S. Lorenz, C. wall Nachtigall, W. Leiner</p><p> 373 -- 382</p><p> S. Lorenz, C. Nachtigall, W. Leiner Numerical simulation for conjugate problem of natural convection on both sides of a vertical wall C. Han-Taw, C. Shiuh-Ming</p><p> 383 -- 390</p><p> Heat transfer, condensation and fog formation in crossflow plastic heat exchangers H.J.H. Brouwers, C.W.M. Van Der Geld</p><p> 391 -- 405<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Effect of interfacial deformation on the onset of convective instability in a doubly diffusive fluid layer C. Ming-I, C. Ko-Ta</p><p> 407 -- 418</p><p> Fin efficiency and mechanisms of heat exchange through fins in multi-stream platefin heat exchangers: formulation B.S.V. Prasad</p><p> 419 -- 428</p><p> Periodic heat transfer in a vertical plate fin cooled by a forced convective flow C. Chien-Hsin, C. Jenq-Shing</p><p> 429 -- 435</p><p> Upstream migration of heat during combined convection in a horizontal parallel plate duct D.B. Ingham, P. Watson, P.J. Heggs</p><p> 437 -- 440</p><p> Volume (issue): 39 (1) 1996 Laminar, buoyancy induced flow structures in a bottom heated, aspect ratio 2 duct with throughflow S.S. Chen, A.S. Lavine</p><p> 1 -- 11<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Transient three-dimensional natural convection in a rectangular enclosure H. Shou-Shing, Y. Shyh-Shyan</p><p> 13 -- 26</p><p> Effects of Dean vortex pairs on surface heat transfer in curved channel flow P.M. Ligrani, S. Choi, A.R. Schallert, P. Skogerboe</p><p> 27 -- 37</p><p> Analysis of flow instabilities and their role on critical heat flux for two-phase downflow and low pressure systems S. Nair, S. Lele, M. Ishii, S.T. Revankar</p><p> 39 -- 48</p><p> Conjugate natural convection in a planar thermosyphon with multiple inlets--I. Velocity and temperature fields J. Fleming, M.R. Amin</p><p> 49 -- 59</p><p> Conjugate natural convection in a planar thermosyphon with multiple inlets--II. Heat transfer J. Fleming, M.R. Amin</p><p> 61 -- 68<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Transient heat transfer in a semitransparent radiating layer with boundary convection and surface reflections R. Siegel</p><p> 69 -- 79</p><p> Optimization of quench history of aluminum parts for superior mechanical properties D.D. Hall, I. Mudawar</p><p> 81 -- 95</p><p> Method of heat and mass transfer enhancement in film evaporation G.S. Zheng, W.M. Worek</p><p> 97 -- 108</p><p> Modelling of cooling tower splash pack A.A. Dreyer, P.J. Erens</p><p> 109 -- 123</p><p> A numerical study of convective heat transfer from a blunt plate at low Reynolds number H. Kazeminejad, M. Ghamari, M.A. Yaghoubi</p><p> 125 -- 133<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Heat transfer enhancement in water-feldspar upflows through vertical annuli T.A. Ozbelge, S.H. Koker</p><p> 135 -- 147</p><p> Investigation of flow and heat transfer in corrugated passages-I. Experimental results J. Stasiek, M.W. Collins, M. Ciofalo, P.E. Chew</p><p> 149 -- 164</p><p> Investigation of flow and heat transfer in corrugated passages-II. Numerical simulations M. Ciofalo, J. Stasiek, M.W. Collins</p><p> 165 -- 192</p><p> The influence of inner-wall motion on the linear stability of natural convection in a tall vertical annulus J.-C. Chen, G.-H. Chou, C.-K. Hsieh</p><p> 193 -- 201</p><p> Free convection heat transfer of non-Newtonian fluids over axisymmetric and twodimensional bodies of arbitrary shape embedded in a fluid-saturated porous medium Yue-Tzu Yang, Sae-Jan Wang</p><p> 203 -- 210<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Heat transfer to sliding bubbles on a tube under evaporating and non-evaporating conditions S.D. Houston, K. Cornwell</p><p> 211 -- 214</p><p> Application of the diffuse approximation for solving fluid flow and heat transfer problems H. Sadat, C. Prax</p><p> 214 -- 218</p><p> Remarks upon the contribution of J. Stefan to the understanding of diffusion processes J. Mitrovic</p><p> 218 -- 220</p><p> Volume (issue): 38 (18) 1995 Three-dimensional driven-cavity flows with a vertical temperature gradient R. Iwatsu, M.H. Jae</p><p> 3319 -- 3328</p><p> An experimental investigation into forced, natural and combined forced and natural convective heat transfer from stationary isothermal circular disks C.J. Kobus, G.L. Wedekind</p><p> 3329 -- 3339<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Two models of fluid flow and mass transfer at the trailing edge of a gas slug T. Elperin, A. Fominykh</p><p> 3341 -- 3347</p><p> Theoretical and experimental investigation of a constant-pressure adsorption process A. Hajji, S. Khalloufi</p><p> 3349 -- 3358</p><p> Integral transform methodology for convection-diffusion problems in petroleum reservoir engineering A.R. Almeida, R.M. Cotta</p><p> 3359 -- 3367</p><p> Mass exchange between droplets during head-on collisions of multisize sprays</p><p> 3369 -- 3383</p><p> F. Anidjar, Y. Tambour, J.B. Greenberg Effect of mass transfer on turbulent friction during condensation inside ducts W. Groenewald, D.G. Kroger</p><p> 3385 -- 3392<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Heat conduction in a semi-infinite solid subject to steady and non-steady periodictype surface heat fluxes S.M. Zubair, M.A. Chaudhry</p><p> 3393 -- 3399</p><p> A theoretical study of the transient coupled conduction and radiation heat transfer in glass: phonic diffusivity measurements by the flash technique S. Andre, A. Degiovanni</p><p> 3401 -- 3412</p><p> Effect of the temperature dependence of fluid properties on the migration of an interface in double-diffusive natural convection K. Kamakura, H. Ozoe</p><p> 3413 -- 3421</p><p> Evaluation of an improved hybrid six-flux/zone model for radiative transfer in rectangular enclosures C. Sasse, R. Koenigsdorff, S. Frank</p><p> 3423 -- 3431</p><p> An inverse problem in simultaneously measuring temperature-dependent thermal conductivity and heat capacity H. Cheng-Hung, Y. Jan-Yuan</p><p> 3433 -- 3441<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Experimental study of the heat transfer enhancement of an outer tube with an inner-tube insertion F. Wu-Shung, T. Ching-Chi, H. Chih-Shung</p><p> 3443 -- 3454</p><p> A numerical study of the combined effects of microsegregation, mushy zone permeability and flow, caused by volume contraction and thermosolutal convection, on macrosegregation and eutectic formation in binary alloy solidification M.C. Schneider, C. Beckermann</p><p> 3455 -- 3473</p><p> Experimental studies of laminar flow and heat transfer in a one-porous-wall square duct with wall injection C.C. Y., J.H. G.</p><p> 3475 -- 3484</p><p> Heat transfer and fluid flow of natural convection along a vertical flat plate in the transition region: experimental analysis of the wall temperature field T. Inagaki, K. Komori</p><p> 3485 -- 3495</p><p> Volume (issue): 38 (17) 1995 Line-by-line calculations of the absorption of infrared radiation by water vapor in a box-shaped enclosure filled with humid air G.N. Schenker, B. Keller</p><p> 3127 -- 3134<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Analysis of laser beam deviation fluctuations in a turbulent nonisothermal flow and relevance to _ F. El Ammouri, A. Soufiani, J. Taine</p><p> 3135 -- 3142</p><p> Temperature field in a multilayer assembly affected by a local laser heating T. Elperin, G. Rudin</p><p> 3143 -- 3147</p><p> Heat transfer and fluid flow of natural convection adjacent to upward-facing horizontal plates K. Kitamura, F. Kimura</p><p> 3149 -- 3159</p><p> K. Kitamura, F. Kimura Numerical and experimental analysis of combined convective and radiative heat transfer in laminar flow over a circular cylinder D.A. Kaminski, X.D. Fu, M.K. Jensen</p><p> 3161 -- 3169</p><p> Computational analysis of convection heat transfer to non-spherical particles J.K. Comer, C. Kleinstreuer</p><p> 3171 -- 3180<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Microstructural influence on heat conduction C. Boutin</p><p> 3181 -- 3195</p><p> Heat transfer in a rectangular channel with perforated turbulence promoters using holographic interferometry measurement H. Jenn-Jiang, L. Tong-Miin</p><p> 3197 -- 3207</p><p> Boundary-layer control by heat and mass transfer S. Hubbard, N. Riley</p><p> 3209 -- 3217</p><p> Convective heat transfer in periodic wavy passages W. G., S.P. Vanka</p><p> 3219 -- 3230</p><p> The generalized lagging response in small-scale and high-rate heating D.Y. Tzou</p><p> 3231 -- 3240<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Direct numerical simulation of a turbulent open channel flow with passive heat transfer D.M. Lu, G. Hetsroni</p><p> 3241 -- 3251</p><p> Heat and mass transfer with condensation in a fibrous insulation slab bounded on one side by a cold surface K. Murata</p><p> 3253 -- 3262</p><p> Unsteady heat transfer and particle behavior around a horizontal tube bundle near an expanded bed surface of a gas fluidized bed: conditional sampling statistical analysis M. Miyamoto, K. Takahashi, J.R. Jie, Y. Katoh, J. Kurima</p><p> 3263 -- 3273</p><p> Contact melting by a non-isothermal heating surface of arbitrary shape A.F. S., S.W. P., V.A. Chugunov</p><p> 3275 -- 3284</p><p> Measurement and interpretation of growth of monodispersed water droplets suspended in pure vapor F. Peters, K.A.J. Meyer</p><p> 3285 -- 3293<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Fractal features of oscillatory convection in the half-floating zone T. Ze-Mei, H. Wen-Rui</p><p> 3295 -- 3303</p><p> The influence of surface mass flux on vortex instability of a horizontal mixed convection flow in a saturated porous medium J. Jiin-Yuh, L. Kun-Nun, C. Jiing-Lin</p><p> 3305 -- 3311</p><p> 2-D numerical study on a rectangular thermosyphon with vertical or horizontal heat transfer sections S. Yinxue, C. Zhongoi</p><p> 3313 -- 3317</p><p> Volume (issue): 38 (16) 1995 Optimization of pulsating heaters in forced convection A.M. Morega, J.V.C. Vargas, A. Bejan</p><p> 2925 -- 2934</p><p> Solidification of porous medium saturated with aqueous solution in a rectangular cell-II K. Matsumoto, M. Okada, M. Murakami, Y. Yabushita</p><p> 2935 -- 2943<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Role of micro-convection due to non-affine motion of particles in a mono-disperse suspension S.K. Gupte, S.G. Advani, P. Huq</p><p> 2945 -- 2958</p><p> Mass transfer characteristics for a rotating cup-like cylinder N.K. Won, M.H. Jae</p><p> 2959 -- 2967</p><p> A numerical investigation of conjugate heat transfer from a flush heat source on a conductive board in laminar channel flow R. Sugavanam, A. Ortega, Y.C. C.</p><p> 2969 -- 2984</p><p> Correlation of Sauter mean diameter and critical heat flux for spray cooling of small surfaces K.A. Estes, I. Mudawar</p><p> 2985 -- 2996</p><p> Optimal allocation of a heat-exchanger inventory in heat driven refrigerators A. Bejan, J.V.C. Vargas, M. Sokolov</p><p> 2997 -- 3004<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> An inverse analysis to estimate linearly temperature dependent thermal conductivity components and heat capacity of an orthotropic medium B. Sawaf, M.N. Ozisik, Y. Jarny</p><p> 3005 -- 3010</p><p> A numerical solution of laminar forced convection in a heated pipe subjected to a reciprocating flow Z. T., C. P.</p><p> 3011 -- 3022</p><p> Heat and mass transfer coupling between vaporizing droplets and turbulence using a Lagrangian approach A. Berlemont, M.S. Grancher, G. Gouesbet</p><p> 3023 -- 3034</p><p> Influence of the heating rate on supercritical Rayleigh-Benard convection R. Hernandez</p><p> 3035 -- 3051</p><p> Heat transfer and fluid flow characteristics of plate-array aligned at angles to the flow direction W. L. B., T. W. Q.</p><p> 3053 -- 3063<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Hyperbolic axial dispersion model: concept and its application to a plate heat exchanger W. Roetzel, S.K. Das</p><p> 3065 -- 3076</p><p> Numerical analysis of deterioration phenomena in heat transfer to supercritical water S. Koshizuka, N. Takano, Y. Oka</p><p> 3077 -- 3084</p><p> Determination of the diffusion coefficients of iron and chromium in Pb17Li N. Simon, T. Flament, A. Terlain, C. Deslouis</p><p> 3085 -- 3090</p><p> Heat transfer in the inverted meniscus type evaporator at high heat fluxes D. Khrustalev, A. Faghri</p><p> 3091 -- 3101</p><p> Generalized integral forms of friction, heat and mass transfer coefficients Yu.N. Kornienko</p><p> 3103 -- 3108<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> An improved method for smoothing approximate exchange areas D.A. Lawson</p><p> 3109 -- 3110</p><p> Volume (issue): 38 (15) 1995 Effect of internal radiation within crystal and melt on Czochralski crystal growth of oxide T. Tsukada, K. Kakinoki, M. Hozawa, N. Imaishi</p><p> 2707 -- 2714</p><p> Flow dynamics and heat transfer of a condensate film on a vertical wall--II. Flow dynamics and heat transfer E. Stuhltrager, A. Miyara, H. Uehara</p><p> 2715 -- 2722</p><p> Marangoni-Benard instability of a floating liquid layer with an internal, permeable, 2723 -- 2731 heated or cooled divider and two deformable open surfaces R.V. Birikh, V.A. Briskman, R.N. Rudakov, M.G. Velarde Effect of natural convection on laminar pipe flow solidification G.J. Hwang, C.W. Tsai</p><p> 2733 -- 2742</p><p> Spectral collocation methods for one-dimensional phase-change problems R. Spall</p><p> 2743 -- 2748<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Flow film boiling collapse and surface rewetting in normal and reduced gravity conditions K. Adham-Khodaparast, J.J. Xu, M. Kawaji</p><p> 2749 -- 2760</p><p> Buoyant turbulent flow driven by internal energy generation V.S. Arpaci</p><p> 2761 -- 2770</p><p> The double integral method applied to separation calculation J. Sucec</p><p> 2771 -- 2777</p><p> Local thermal equilibrium for transient heat conduction : theory and comparison with numerical experiments M. Quintard, S. Whitaker</p><p> 2779 -- 2796</p><p> Surface temperature measurement of semi-transparent material by thermocouple in real site experimental approach and simulation A. Trombe, J.A. Moreau</p><p> 2797 -- 2807<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> A new unified a posteriori error estimator for adaptive finite element analysis of coupled transport problems L.S. Oliveira, K. Haghighi</p><p> 2809 -- 2819</p><p> The temperature field in a cylindrical electric conductor with annular section A. Barletta, E. Zanchini</p><p> 2821 -- 2832</p><p> Fundamentals of ice making by convection cooling followed by contact melting J.V.C. Vargas, A. Bejan</p><p> 2833 -- 2841</p><p> Numerical modeling of ablation phenomena as two-phase Stefan problems M. Storti</p><p> 2843 -- 2854</p><p> Calculation of turbulent boundary layers with transpiration and pressure gradient effects</p><p> 2855 -- 2862<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> effects J. Sucec, M. Oljaca The mechanism of heat transfer enhancement for mineral oil in 2:1 rectangular ducts F.C. Chou, C.W. Tung</p><p> 2863 -- 2871</p><p> Analytical comparison and criteria for heat and mass transfer models in metal hydride packed beds A.V. Kuznetsov, K. Vafai</p><p> 2873 -- 2884</p><p> Using non-linear _2 fit in flash method T. Sramkova, T. Log</p><p> 2885 -- 2891</p><p> Laminar and turbulent free convection in vertical cylinders with internal heat generation M. Holzbecher, A. Steiff</p><p> 2893 -- 2903</p><p> Transport phenomena of developing laminar mixed convection heat and mass transfer in inclined rectangular ducts Y. Wei-Mon</p><p> 2905 -- 2914<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Analytical solution for transient heat conduction in hollow cylinders containing well-stirred fluid with uniform heat sink Z.W. Zhou</p><p> 2915 -- 2919</p><p> Heat wave phenomena in IC chips X. Yun-Sheng, G. Zeng-Yuan</p><p> 2919 -- 2922</p><p> Volume (issue): 38 (14) 1995 Mixed convection in horizontal channels with discrete material and top exhaust T.L. Bergman, Y.S. Son</p><p> 2519 -- 2527</p><p> Heat transfer by oscillating flow in a circular pipe with a sinusoidal wall temperature distribution D. Lee, S. Park, S.T. Ro</p><p> 2529 -- 2537</p><p> Numerical simulations of interface viscosity effects on thermoconvective motion in two-dimensional rectangular boxes V.C. Regnier, P.M. Parmentier, G. Lebon, J.K. Platten</p><p> 2539 -- 2548<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> An analytical method for determining thermal conductivity from dynamic experiments R.A. MacDonald</p><p> 2549 -- 2556</p><p> Development and investigation of three-phase model of the mushy zone for analysis of porosity formation in solidifying castings A.V. Kuznetsov, K. Vafai</p><p> 2557 -- 2567</p><p> Optical properties of thick, turbid media from picosecond time-resolved light scattering measurements M.Q. Brewster, Y. Yamada</p><p> 2569 -- 2581</p><p> Numerical simulation of supercritical Hadley circulation, within a porous layer, induced by inclined temperature gradients D.M. Manole, J.L. Lage</p><p> 2583 -- 2593</p><p> Effets de l'injection de gouttes sur une onde de choc stationnaire dans une tuyere F. Utheza, E. Daniel, R. Saurel, J.C. Loraud</p><p> 2595 -- 2610<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Theoretical investigation of transient droplet combustion by considering flame radiation C. Keh-Chin, S. Jeng-Shien</p><p> 2611 -- 2621</p><p> Numerical study of the compressible turbulent flow in a laser cavity G. Vlad, O. Boiron, G. Le Palec, P. Bournot</p><p> 2623 -- 2633</p><p> Momentum transfer at the boundary between a porous medium and a homogeneous fluid--I. Theoretical development J.A. Ochoa-Tapia, S. Whitaker</p><p> 2635 -- 2646</p><p> Momentum transfer at the boundary between a porous medium and a homogeneous fluid--II. Comparison with experiment J.A. Ochoa-Tapia, S. Whitaker</p><p> 2647 -- 2655</p><p> A nonlinear low-Reynolds-number k- model for turbulent separated and reattaching flows--I. Flow field computations T.S. Park, H.J. Sung</p><p> 2657 -- 2666<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Numerical analysis of higher order harmonics in the response of a mass transfer probe M. Zai-Sha</p><p> 2667 -- 2675</p><p> Heat transfer in a channel with a counter-current wall jet injection E.P. Volchkov, V.P. Lebedev, M.I. Nizovtsev, V.I. Terekhov</p><p> 2677 -- 2687</p><p> A numerical study of free convection in a strongly inhomogeneous gas medium I.M. Kozlov, A.Ye. Suvorov, V.I. Tyukayev</p><p> 2689 -- 2695</p><p> Pressure perturbations method for analysis of transient compressible gas flow around wells in porous media I. Shnaid, S. Olek</p><p> 2697 -- 2700</p><p> The possibility of thermal solitons V. Majernik, E. Majernikova</p><p> 2701 -- 2703<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 38 (13) 1995 Effects of wall transpiration on mixed convection in a radial outward flow inside rotating ducts Y. Wei-Mon</p><p> 2333 -- 2342</p><p> Three-dimensional natural convection flow around two interacting isothermal cubes D.J. Cha, S.S. Cha</p><p> 2343 -- 2352</p><p> Numerical studies of forced convection heat transfer from a cylinder embedded in a 2353 -- 2366 packed bed K.J. Nasr, S. Ramadhyani, R. Viskanta A micro/macro model for fluid flow evolution and microstructure formation in solidification processes B.Q. Li, P.N. Anyalebechi</p><p> 2367 -- 2381</p><p> An experimental investigation of the solidification process in a V-shaped sump R. Burton, G. Yang, Z.F. Dong, M.A. Ebadian</p><p> 2383 -- 2393</p><p> The transitive temperature processes in local friction contact A.A. Yevtushenko, E.G. Ivanyk, O.V. Sykora</p><p> 2395 -- 2401<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Local heat transfer, solids concentration and erosion around membrane tubes in a cold model circulating fluidized bed C. Lockhart, J. Zhu, C.M.H. Brereton, C.J. Lim, J.R. Grace</p><p> 2403 -- 2410</p><p> Diffusion d'air humide avec condensation de vapeur d'eau en milieu poreux S. Larbi, G. Bacon, S.A. Bories</p><p> 2411 -- 2426</p><p> Heat transfer and flow structure in laminar and turbulent flows in a rectangular channel with longitudinal vortices P. Deb, G. Biswas, N.K. Mitra</p><p> 2427 -- 2444</p><p> Mixed convection flow and heat transfer in a heated vertical convergent channel T.M. Huang, C. Gau, W. Aung</p><p> 2445 -- 2456</p><p> Oscillation-induced heat transport: heat transport characteristics along liquidcolumns of oscillation-controlled heat transport tubes S. Nishio, X. Shi, W. Zhang</p><p> 2457 -- 2470<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Laminar thermal convection in a vertical slot: transient behaviour and thermal diffusivity determination J.K. Platten, G. Chavepeyer, M.B. Bada</p><p> 2471 -- 2478</p><p> Numerical investigations on thermal effects of laser-ocular media interaction E.H. Amara</p><p> 2479 -- 2488</p><p> Penetrative convection in a stably stratified enclosure A.H. Abib, Y. Jaluria</p><p> 2489 -- 2500</p><p> A general correlation for determining optimum baffle spacing for all types of shell and tube exchangers M. Saffar-Avval, E. Damangir</p><p> 2501 -- 2506</p><p> Velocity and temperature distributions in compressible turbulent boundary layers with heat and mass transfer A.P.S. Freire, D.O.A. Cruz, C.C. Pellegrini</p><p> 2507 -- 2515<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 38 (12) 1995 Stability of natural convection flow in a tall vertical enclosure under nonBoussinesq conditions S.A. Suslov, S. Paolucci</p><p> 2143 -- 2157</p><p> Experimental study of natural convection between two compartments of a stairwell S. Ergin-Ozkan, M.R. Mokhtarzadeh-Dehghan, A.J. Reynolds</p><p> 2159 -- 2168</p><p> The effect of natural convection in mass transport measurements in dilute liquid alloys J.P. Garandet, C. Barat, T. Duffar</p><p> 2169 -- 2174</p><p> Parameters dominating swirl effects on turbulent transport derived from stressscalar-flux transport equation S. Hirai, T. Takagi</p><p> 2175 -- 2182</p><p> An analysis of freeze-up phenomena during gas atomization of metals H. Liu, E.J. Lavernia, R.H. Rangel</p><p> 2183 -- 2193<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Limitations of the fluid-to-fluid scaling technique for critical heat flux in flow boiling R.M. Tain, D.C. Groeneveld, S.C. Cheng</p><p> 2195 -- 2208</p><p> Transient pool boiling from downward-facing curved surfaces M.S. El-Genk, A.G. Glebov</p><p> 2209 -- 2224</p><p> Effects of variable viscosity and viscous dissipation on laminar convection heat transfer of a power law fluid in the entrance region of a semi-circular duct S.GH. Etemad, A.S. Mujumdar</p><p> 2225 -- 2238</p><p> Numerical simulation of the fluid flow and the mixing process in a static mixer E. Lang, P. Drtina, F. Streiff, M. Fleischli</p><p> 2239 -- 2250</p><p> Improvements to the discrete transfer method of calculating radiative heat transfer P.S. Cumber</p><p> 2251 -- 2258<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Evaporation of liquid droplets containing small solid particles T. Elperin, B. Krasovitov</p><p> 2259 -- 2267</p><p> Onset of Marangoni convection in a layer of fluid modulated by a weak nonplanar oscillatory shear A.C. Or, R.E. Kelly</p><p> 2269 -- 2279</p><p> Calculation of meniscus shapes and transport processes in float zone W. Shyy, M.M. Rao</p><p> 2281 -- 2295</p><p> Evaluation of heat and moisture transfer properties in a frozen-unfrozen water-soil system A.K. Singh, D.R. Chaudhary</p><p> 2297 -- 2303</p><p> Inertial effects on thermophoretic transport of small particles to walls with streamwise curvature--I. Theory A.G. Konstandopoulos, D.E. Rosner</p><p> 2305 -- 2315<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Inertial effects on thermophoretic transport of small particles to walls with streamwise curvature--II. Experiment A.G. Konstandopoulos, D.E. Rosner</p><p> 2317 -- 2327</p><p> Volume (issue): 38 (11) 1995 Analysis of the heat transfer coefficient in a turbulent particle pipe flow R. Avila, J. Cervantes</p><p> 1923 -- 1932</p><p> Cooling of optical fiber in aiding and opposing forced gas flow T. Vaskopulos, C. Polymeropoulos, A. Zebib</p><p> 1933 -- 1944</p><p> Mixed convection laminar flow and heat transfer of liquids in isothermal horizontal 1945 -- 1956 circular ducts B. Shome, M.K. Jensen A numerical and experimental study of three-dimensional transport in the channel of an extruder for polymeric materials T. Sastrohartono, Y. Jaluria, M. Esseghir, V. Sernas</p><p> 1957 -- 1973</p><p> Convective heat transfer in a vertical anisotropic porous layer G. Degan, P. Vasseur, E. Bilgen</p><p> 1975 -- 1987<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Local coefficients for forced convection in curved rectangular channels of large aspect ratio with unequal uniform heating M.J. Targett, W.B. Retallick, S.W. Churchill</p><p> 1989 -- 1999</p><p> Transient conduction in eccentrically hollow cylinders M.A.I. El-Shaarawi, E. Mokheimer</p><p> 2001 -- 2010</p><p> Coriolis effect on free convection in a long rotating porous box subject to uniform heat generation P. Vadasz</p><p> 2011 -- 2018</p><p> Isokinetic sampling probe and image processing system for droplet size measurement in two-phase flow G.J. Zhang, M. Ishii</p><p> 2019 -- 2027</p><p> Calibration of a photographic method for imaging mass transfer in aqueous solutions A. Dasgupta, P. Guenard, S.M. Anderson, J.S. Karsnitz, J.S. Ultman, K.T. Morgan</p><p> 2029 -- 2037<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Effects of multiple obstructions on natural convection heat transfer in vertical channels P. Viswatmula, M.R. Amin</p><p> 2039 -- 2046</p><p> The optimal spacing between horizontal cylinders in a fixed volume cooled by natural convection A. Bejan, A.J. Fowler, G. Stanescu</p><p> 2047 -- 2055</p><p> Simulation of interfacial instabilities during solidification--I. Conduction and capillarity effects H.S. Udaykumar, W. Shyy</p><p> 2057 -- 2073</p><p> Forces on bubbles growing and detaching in flow along a vertical wall W.G.J. Van Helden, C.W.M. Van Der Geld, P.G.M. Boot</p><p> 2075 -- 2088</p><p> The flows induced by a heated oscillating sphere D.V. Lyubimov, A.A. Cherepanoy, T.P. Lyubimova, B. 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Chu</p><p> 1841 -- 1853<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> The effect of heat transfer on the stability of laminar boundary layers P. Schafer, J. Severin, H. Herwig</p><p> 1855 -- 1863</p><p> Unsteady analysis of non-isothermal flow and heat transfer between rotating coaxial disks C.Y. Soong, H.L. Ma</p><p> 1865 -- 1878</p><p> Turbulent natural convection and conduction in enclosures bounded by a massive wall R.B. Yedder, E. Bilgen</p><p> 1879 -- 1891</p><p> Acoustic enhancement of heat transfer between two parallel plates P. Vainshtein, M. Fichman, C. Gutfinger</p><p> 1893 -- 1899</p><p> A study of thermophoretic transport in a reacting flow with application to external chemical vapor deposition processes H.C. Tsai, R. Greif, S. Joh</p><p> 1901 -- 1910<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> The effects of SiCl4 and GeCl4 oxidation, variable properties, buoyancy and tube rotation on the modified chemical vapor deposition process S. Joh, R. Greif</p><p> 1911 -- 1921</p><p> Volume (issue): 38 (9) 1995 Analytical solution of non-Darcian forced convention in an annular duct partially filled with a porous medium S. Chikh, A. Boumedien, K. Bouhadef, G. Lauriat</p><p> 1543 -- 1551</p><p> Macrosegregation near a cast surface caused by exudation and solidification shrinkage E. Haug, A. Mo, H.J. Thevik</p><p> 1553 -- 1563</p><p> Effect of material composition and localized heat generation on time-dependent conjugate heat transport J.S. Nigen, C.H. Amon</p><p> 1565 -- 1576</p><p> Heat transfer in granular activated carbon beds in the presence of adsorbable gases R.E. Critoph, L. Turner</p><p> 1577 -- 1585<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Air filtration with moisture and frosting phase changes in fiberglass insulation--I. Experiment D.R. Mitchell, Y.-X. Tao, R.W. Besant</p><p> 1587 -- 1596</p><p> Air filtration with moisture and frosting phase changes in fiberglass insulation--II. Model validation D.R. Mitchell, Y.-X. Tao, R.W. Besant</p><p> 1597 -- 1604</p><p> Condensation in a gas-loaded thermosyphon X. Zhou, R.E. Collins</p><p> 1605 -- 1617</p><p> Laminar flow heat transfer in pipes including two-dimensional wall and fluid axial conduction S. Bilir</p><p> 1619 -- 1625</p><p> Prediction of transient oscillating flow in Czochralski convection H.J. Sung, Y.J. Jung, H. Ozoe</p><p> 1627 -- 1636<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Melting and solidification of thin wires: a class of phase-change problems with a mobile interface--I. Analysis L.J. Huang, P.S. Ayyaswamy, I.M. Cohen</p><p> 1637 -- 1645</p><p> Melting and solidification of thin wires: a class of phase-change problems with a mobile interface--II. Experimental confirmation I.M. Cohen, L.J. Huang, P.S. Ayyaswamy</p><p> 1647 -- 1659</p><p> Vortex flow and thermal characteristics in mixed convection of air in a horizontal rectangular duct: effects of the Reynolds and Grashof numbers C.C. Huang, T.F. Lin</p><p> 1661 -- 1674</p><p> A mathematical model for the prediction of heat transfer from finned surfaces in a circulating fluidized bed P.K. Nag, M.N. Ali, P. Basu</p><p> 1675 -- 1681</p><p> Linear stability of a double diffusive layer with variable fluid properties J. Tanny, V.A. Gotlib</p><p> 1683 -- 1691<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Prediction of opposing turbulent line jets discharged laterally into a confined crossflow Y.R. Chang, K.S. Chen</p><p> 1693 -- 1703</p><p> Mass transfer from a drop--II. Theoretical analysis of temperature dependent mass flux correlation M. Kulmala, T. Vesala, J. Schwarz, J. Smolik</p><p> 1705 -- 1708</p><p> Bubble dynamics on the evolving bubble formed from the droplet at the superheat limit H. Kwak, S. Oh, C. Park</p><p> 1709 -- 1718</p><p> Mass transfer enhancement in a symmetric sinusoidal wavy-walled channel for pulsatile flow T. Nishimura, N. Kojima</p><p> 1719 -- 1731</p><p> Volume (issue): 38 (8) 1995 Thermoacoustic waves in a semi-infinite medium Y. Huang, H.H. Bau</p><p> 1329 -- 1345<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Nucleate pool boiling of R-114 and R-114-oil mixtures from smooth and enhanced surfaces--I. Single tubes S.B. Memory, D.C. Sugiyama, P.J. Marto</p><p> 1347 -- 1361</p><p> Nucleate pool boiling of R-114 and R-114-oil mixtures from smooth and enhanced surfaces--II. Tube bundles S.B. Memory, N. Akcasayar, H. Eraydin, P.J. Marto</p><p> 1363 -- 1376</p><p> Propagation of condensation front in steam injection into dry porous media K. Hanamura, M. Kaviany</p><p> 1377 -- 1386</p><p> Thermal analysis and measurements for a molten metal drop impacting on a substrate: cooling, solidification and heat transfer coefficient W. Liu, G.X. Wang, E.F. Matthys</p><p> 1387 -- 1395</p><p> Natural convection and conduction in inclined enclosures bounded by a wall with honeycomb structure E.K. Lakhal, E. Bilgen, P. Vasseur</p><p> 1397 -- 1407<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Boiling flow through a rod-bundle channel: steady states and dynamic instabilities K. Whitfield, R.P. Roy</p><p> 1409 -- 1425</p><p> Analysis of the critical Weber number at the onset of liquid entrainment in capillary-driven heat pipes B.H. Kim, G.P. Peterson</p><p> 1427 -- 1442</p><p> Simulation of reaction and transport in catalyst particles with partial external and internal wetting D.N. Jaguste, S.K. Bhatia</p><p> 1443 -- 1455</p><p> Experimental investigation of the mode of phase dissociation in superheated liquid jets E.M. Peter, A. Takimoto, Y. Hayashi</p><p> 1457 -- 1466</p><p> A new turbulence model for predicting fluid flow and heat transfer in separating and reattaching flows--II. Thermal field calculations K. Abe, T. Kondoh, Y. Nagano</p><p> 1467 -- 1481<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Fluid dynamics and condensation-heating of capillary liquid jets J. Mitrovic, A. Ricoeur</p><p> 1483 -- 1494</p><p> Direct contact evaporation of nearly saturated R 114 in water G.P. Celata, M. Cumo, F. D'Annibale, F. Gugliermetti, G. Ingui</p><p> 1495 -- 1504</p><p> Ice formation for turbulent flow in curved rectangular channels J. Braun, H. Beer</p><p> 1505 -- 1515</p><p> Conjugate mixed convection on a vertical surface in a porous medium I. Pop, D. Lesnic, D.B. Ingham</p><p> 1517 -- 1525</p><p> Correlational analysis of turbulent channel flows with injection S.V. Kalinina</p><p> 1527 -- 1531<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 38 (7) 1995 Experimental study on the crystallization of a binary melt at the vertical boundary of an enclosure J. Tanny</p><p> 1141 -- 1150</p><p> Effect of model orientation and wall heating condition on local heat transfer in a rotating two-pass square channel with rib turbulators J.A. Parsons, J. Han, Y. Zhang</p><p> 1151 -- 1159</p><p> Numerical modeling of multiphase plasma/soil flow and heat transfer in an electric arc furnace S. Paik, H.D. Nguyen</p><p> 1161 -- 1171</p><p> Three-dimensional heat and moisture transfer with viscoelastic strain-stress formation in composite food during drying Y. Itaya, T. Kobayashi, K. Hayakawa</p><p> 1173 -- 1185</p><p> Transferts de chaleur et de quantite de mouvement dans les jets parietaux plans turbulents P.Y. Nizou, T. Tida</p><p> 1187 -- 1200<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Experimental and numerical study of quenching complex-shaped metallic alloys with multiple, overlapping sprays D.D. Hall, I. Mudawar</p><p> 1201 -- 1216</p><p> Local particle convective heat transfer along surfaces in circulating fluidized beds Z.H. Fang, J.R. Grace, C.J. Lim</p><p> 1217 -- 1224</p><p> Turbulent heat transfer in a serpentine channel with a series of right-angle turns J.M. Choi, N.K. Anand</p><p> 1225 -- 1236</p><p> Latent heat method for solidification process of a binary alloy system S.L. Lee, R.Y. Tzong</p><p> 1237 -- 1247</p><p> Three-dimensional convection in rectangular domains with horizontal throughflow E. Schroder, K. Buhler</p><p> 1249 -- 1259<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Convective heat and mass transfer along an inclined heated plate with film evaporation W. Yan, C. Soong</p><p> 1261 -- 1269</p><p> Extension of the continuum model for transport phenomena occurring during metal alloy solidification--I. The conservation equations</p><p> 1271 -- 1284</p><p> metal alloy solidification--I. The conservation equations J. Ni, F.P. Incropera Extension of the continuum model for transport phenomena occurring during metal alloy solidification--II. Microscopic considerations J. Ni, F.P. Incropera</p><p> 1285 -- 1296</p><p> The influence of an impermeable surface on pore steam pressure during drying of refractory concrete slabs Z. Gong, A.S. Mujumdar</p><p> 1297 -- 1303</p><p> Quasi-steady-state three-dimensional temperature distribution induced by a moving circular Gaussian heat source in a finite depth solid O. Manca, B. Morrone, V. Naso</p><p> 1305 -- 1315<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> A transient-state technique for the heat transfer coefficient measurement in a corrugated plate heat exchanger channel based on frequency response and residence time distribution S. Ros, C. Jallut, J.M. Grillot, M. Amblard</p><p> 1317 -- 1325</p><p> Transient heat transfer through an insulation slab with simultaneous moisture redistribution N.E. Wijeysundera, S.J. Wilson</p><p> 1327 -- 1327</p><p> Volume (issue): 38 (6) 1995 Etude numerique et experimentale des transferts de matiere et de quantite de mouvement dans un ecoulement annulaire laminaire non etabli M. Ould-Rouis, A. Salem, J. Legrand, C. Nouar</p><p> 953 -- 967</p><p> Pool boiling heat transfer--I. Measurement and semi-empirical relations of detachment frequencies of coalesced bubbles T. Kumada, H. Sakashita, H. Yamagishi</p><p> 969 -- 977</p><p> Pool boiling heat transfer--II. Thickness of liquid macrolayer formed beneath vapor masses T. Kumada, H. Sakashita</p><p> 979 -- 987<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Level swell in pool boiling with liquid circulation B. Boesmans, J. Berghmans</p><p> 989 -- 998</p><p> A block-correction aided strongly implicit solver for the five-point formulation of elliptic differential equations C. Kim, S.T. Ro</p><p> 999 -- 1008</p><p> A model of inverse segregation: the role of microporosity V.R. Voller, S. Sundarraj</p><p> 1009 -- 1018</p><p> The estimation of surface thermal behavior of the working roll in hot rolling process C.H. Huang, T.M. Ju, A.A. Tseng</p><p> 1019 -- 1031</p><p> Heat and moisture transfer and hygrostress crack formation and propagation in cylindrical, elastoplastic food M. Izumi, K. Hayakawa</p><p> 1033 -- 1041<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Prandtl number effect on offset fin heat exchanger performance: predictive model for heat transfer S. Hu, K.E. Heroldand pressure drop</p><p> 1043 -- 1051</p><p> S. Hu, K.E. Herold Prandtl number effect on offset fin heat exchanger performance: experimental results S. Hu, K.E. Herold</p><p> 1053 -- 1061</p><p> Natural convection in rectangular enclosures heated from below and symmetrically cooled from the sides M.M. Ganzarolli, L.F. Milanez</p><p> 1063 -- 1073</p><p> La perte de temperature a travers la charge: interet pour le pilotage d'un sechoir a bois a haute temperature M. Martin, P. Perre, M. Moser</p><p> 1075 -- 1088</p><p> The heat flow rate in symmetrical two-dimensional conduction problems R.A. Kuyper</p><p> 1089 -- 1095<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> The natural convection from a point heat source embedded in a non-Darcian porous medium J. Leu, J. Jang</p><p> 1097 -- 1104</p><p> Measurement of the thermal conductivity of fluids with low viscosity under reduced gravity conditions using the transient hot-wire technique R. Greger, H.J. Rath</p><p> 1105 -- 1110</p><p> The prediction of the critical heat flux in water-subcooled flow boiling G.P. Celata, M. Cumo, A. Mariani, G. Zummo</p><p> 1111 -- 1119</p><p> Heat and mass transfer of absorption process for the falling film flow inside a porous medium R. Yang, D. Jou</p><p> 1121 -- 1126</p><p> Dynamic analysis of plate heat exchangers with dispersion in both fluids S.K. Das, W. Roetzel</p><p> 1127 -- 1140<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> Volume (issue): 38 (5) 1995 Forced convection from a surface covered with flexible fibers A.J. Fowler, A. Bejan</p><p> 767 -- 777</p><p> Local condensation rates of steam-air mixtures in direct contact with a falling liquid film T.D. Karapantsios, M. Kostoglou, A.J. Karabelas</p><p> 779 -- 794</p><p> Direct-contact condensation in the presence of noncondensables over free-falling films 795 -- 805 with intermittent liquid feed T.D. Karapantsios, A.J. Karabelas Predictive and diagnostic aspects of a universal thermodynamic model for chillers J.M. Gordon, K.C. Ng</p><p> 807 -- 818</p><p> Energy equation and the crystallization kinetics of semi-crystalline polymers: regimes of coupling A. Benard, S.G. Advani</p><p> 819 -- 832</p><p> Confined single- and multiple-jet impingement heat transfer--I. Turbulent submerged 833 -- 842 liquid jets C.T. Chang, G. Kojasoy, F. Landis, S. Downing</p><p> Confined single- and multiple-jet impingement heat transfer--II. Turbulent two-phase 843 -- 851 flow C.T. Chang, G. Kojasoy, F. Landis, S. Downing Laminar forced convection in a helicoidal pipe with finite pitch G. Yang, Z.F. Dong, M.A. Ebadian<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 853 -- 862</p><p> Validation of the quench factor technique in predicting hardness in heat treatable aluminum alloys J.D. Bernardin, I. Mudawar</p><p> 863 -- 873</p><p> Etude de la convection mixte entre deux plans horizontaux a_ tempe_ratures differentes--III M.T. Ouazzani, J.K. Platten, H.W. Muller, M. Lucke</p><p> 875 -- 886</p><p> Heat transfer within a concrete slab with a finite microwave heating source L.E. Lagos, W. Li, M.A. Ebadian, T.L. White, R.G. Grubb, D. Foster</p><p> 887 -- 897</p><p> Optimization of radiative-convective arrays of pin fins including mutual irradiation between fins D.S. Gerencser, A. Razani</p><p> 899 -- 907</p><p> Vapor bubble growth in heterogeneous boiling--I. Formulation R. Mei, W. Chen, J.F. Klausner<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 909 -- 919</p><p> Vapor bubble growth in heterogeneous boiling--II. Growth rate and thermal fields R. Mei, W. Chen, J.F. Klausner</p><p> 921 -- 934</p><p> Double-diffusion from a vertical surface in a porous region saturated with a nonNewtonian fluid S.K. Rastogi, D. Poulikakos</p><p> 935 -- 946</p><p> Laser heating of a two-layer system with constant surface absorption: an exact solution M.K. El-Adawi, M.A. Abdel-Naby, S.A. Shalaby</p><p> 947 -- 952</p><p> Volume (issue): 38 (4) 1995 Experimental investigation into the flow of liquid film under saturated steam condition on a vibrating surface S. Saha, G.V. Tomarov, O.A. Povarov</p><p> 593 -- 597</p><p> Boiling heat transfer in small horizontal tube bundles at low cross-flow velocities A. Gupta, J.S. Saini, H.K. Varma<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 599 -- 605</p><p> Finite-element method analysis of interaction effects for vaporising cylinders arranged in triangular configurations S.K. Banerji, K. Sivasankaran, K.N. Seetharamu, R. Natarajan</p><p> 607 -- 613</p><p> An analytical model for local heat transfer coefficients for forced convective condensation inside smooth horizontal tubes M.S. Chitti, N.K. Anand</p><p> 615 -- 627</p><p> Effects of heater length and orientation on the trigger mechanism for near-saturated flow boiling critical heat flux--I. Photographic study and statistical characterization of the near-wall interfacial features C.O. Gersey, I. Mudawar</p><p> 629 -- 641</p><p> Effects of heater length and orientation on the trigger mechanism for near-saturated flow boiling critical heat flux--II. Critical heat flux model C.O. Gersey, I. Mudawar</p><p> 643 -- 654</p><p> Thermodynamic optimization method of a triple effect absorption ystem with wasted heat recovery D.M. Manole, J.L. Lage<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 655 -- 663</p><p> Simultaneously developing mixed convection in radially rotating rectangular ducts W.M. Yan, C.Y. Soong</p><p> 665 -- 677</p><p> The interaction of an isolated sprinkler spray and a two-layer compartment fire environment L.Y. Cooper</p><p> 679 -- 690</p><p> Mass transfer from a sublimating naphthalene flat plate to a parallel flow of air N.J. Nassif, W.S. Janna, G.S. Jakubowski</p><p> 691 -- 700</p><p> Transient natural convection and conjugate heat transfer in a crystal growth device C.I. Hung, W. Shyy, H. Ouyang</p><p> 701 -- 712</p><p> Effects of film vaporization on turbulent mixed convection heat and mass transfer in a vertical channel W. Yan<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 713 -- 722</p><p> Spectrum of temperature fluctuations in high-temperature turbulent gas-particle flow 723 -- 730 F.N. Lisin, G. Hetsroni Interaction of a dilute mist flow with a hot body Yu.A. Buyevich, V.N. Mankevich</p><p> 731 -- 744</p><p> Prediction of circulation rates in vertical tube thermosiphon reboiler Mohd. Kamil, S.S. Alam, H. Ali</p><p> 745 -- 748</p><p> Rigorous solution of unsteady forced convection heat transfer H. Lin, W. Cheng</p><p> 748 -- 752</p><p> A unified correlation of laminar convective heat transfer from hot and cold circular cylinders in a uniform air flow S. Kang, K. Hong, S. Kauh</p><p> 752 -- 755</p><p> The effect of thermofluid and geometrical parameters on convection of liquids through rectangular microchannels X.F. Peng, G.P. peterson<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 755 -- 758</p><p> Boiling curve correlation for subcooled flow boiling R.D. Boyd, X. Meng</p><p> 758 -- 760</p><p> An integral treatment for combined heat and mass transfer by natural convection in a 761 -- 765 porous medium A. Nakayama, M.A. Hossain Volume (issue): 38 (3) 1995 A new way of obtaining heat and mass transfer at flat surfaces coated with swollen polymer by measuring recession with projected fringes C.A. Roberts, J.R. Leech, N.S. Girgis</p><p> 393 -- 402</p><p> Extended Leveque solution for laminar heat transfer to power-law fluids in pipes with 403 -- 408 wall slip Y. Shih, C. Huang, S. Tsay Radiation, thermal diffusion and kinetic effects in evaporation and combustion of large and moderate size fuel droplets T. Elperin, B. Krasovitov</p><p> 409 -- 418</p><p> Heat transfer between a rotating cylinder and a moist granular bed C.A. Cook, V.A. Cundy</p><p> 419 -- 432</p><p> Theory of heat transfer-irreversible power plants--II. The optimal allocation of heat exchange equipment A. Bejan<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 433 -- 444</p><p> Axial development of interfacial area and void concentration profiles measured by double-sensor probe method W.H. Leung, S.T. Revankar, Y. Ishii, M. Ishii</p><p> 445 -- 453</p><p> Analysis of one-dimensional fin assembly heat transfer with dehumidification H. Kazeminejad</p><p> 455 -- 462</p><p> Heat and mass transfer model building in drying with multiresponse data C.T. Kiranoudis, Z.B. Maroulis, D. Marinos-Kouris</p><p> 463 -- 480</p><p> Foundation of the interfacial area transport equation and its closure relations G. Kocamustafaogullari, M. Ishii</p><p> 481 -- 493</p><p> Numerical investigation of turbulent flows and heat transfer in a rib-roughened channel with longitudinal vortex generatorst J.X. Zhu, M. Fiebig, N.K. Mitra<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 495 -- 501</p><p> Computer simulation and flow visualization of thermocapillary flow in a silicone oil floating zone Y. Tao, R. Sakidja, S. Kou</p><p> 503 -- 510</p><p> Uncertainties in parameter estimation: the inverse problem T.D. Fadale, A.V. Nenarokomov, A.F. Emery</p><p> 511 -- 518</p><p> Free stream cooling of a stack of parallel plates A.M. Morega, A. Bejan, S.W. Lee</p><p> 519 -- 531</p><p> Experiments on natural convection from two staggered vertical plates G. Tanda</p><p> 533 -- 543</p><p> Thermodynamic and optical properties of gases in a wide range of parameters G.S. Romanov, Yu.A. Stankevich, L.K. Stanchits, K.L. Stepanov<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 545 -- 556</p><p> Simple theoretical approach to direct-contact condensation on subcooled liquid film J. Mikielewicz, A.M.A. Rageb</p><p> 557 -- 562</p><p> Constitutive models for anisotropic frictional heat A. Zmitrowicz</p><p> 563 -- 574</p><p> Volume (issue): 38 (2) 1994 Modelling the temperature profiles within boards during the high-temperature drying of Pinus radiata timber: the influence of airflow reversals</p><p> 189 -- 205</p><p> Pang Shusheng, R. B. Keey, T. A. G. Langrish Aerothermic characterization of a high-power fast axial flow CO2 laser O. Boiron, G. Le Palec, Ph. Bournot</p><p> 207 -- 217</p><p> Transient conjugate free convection due to a vertical plate in a porous medium Michael Vynnycky, Shigeo Kimura<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 219 -- 231</p><p> Condensation heat transfer of a non-azeotropic binary mixture on a horizontal tube W. C. Wang, C. Yu, B. X. Wang</p><p> 233 -- 240</p><p> Numerical simulation of hot-dip metallic coating process Hui Zhang, M. Karim Moallemi</p><p> 241 -- 257</p><p> Turbulent simulation of open channel flow at low Reynolds number T. G. Thomas, J. J. R. Williams</p><p> 259 -- 266</p><p> Use of a laser-induced fluorescence thermal imaging system for local jet impingement heat transfer measurement D. J. Bizzak, M. K. Chyu</p><p> 267 -- 274</p><p> Three-dimensional linear stability of mixed-convective flow between rotating horizontal concentric cylinders Jun Young Choi, Moon-Uhn Kim<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 275 -- 285</p><p> Turbulence et chaos dans un conduit horizontal soumis a un phenomene de convection mixte C. Abid, F. Papini, A. Ropke</p><p> 287 -- 294</p><p> Experimental investigation of geyser boiling in an annular two-phase closed thermosyphon T. F. Lin, W. T. Lin, Y. L. Tsay, J. C. Wu, R. J. Shyu</p><p> 295 -- 307</p><p> Heat transfer in injection moulding systems with insulation layers and heating elements K. M. B. Jansen</p><p> 309 -- 316</p><p> Experimental analysis of intermaterial surfaces in the study of gaseous mixing characteristics A. Cavaliere, M. El-Naggar, R. Ragucci</p><p> 317 -- 329</p><p> Numerical analysis of swirling non-reacting and reacting flows by the Reynolds stress differential method Masaya Ohtsuka<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 331 -- 337</p><p> Mass transfer limited drying of porous media containing an immobile binary liquid mixture Clifford K. Ho, Kent S. Udell</p><p> 339 -- 350</p><p> Convection patterns in a triangular domain Haydee Salmun</p><p> 351 -- 362</p><p> The stability of a single-cell steady-state solution in a triangular enclosure Haydee Salmun</p><p> 363 -- 369</p><p> Temperature distribution in the outlet of cross-flow heat exchangers M. Beziel, K. Stephan</p><p> 371 -- 380</p><p> Effective conductivity of a macroscopically inhomogeneous dispersion Yu. A. Buyevich, V. A. Ustinov<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 381 -- 389</p><p> Yu. A. Buyevich, V. A. Ustinov Volume (issue): 38 (1) 1995 Fully developed free convection in open-ended vertical concentric porous annuli M. A. Al-nimr</p><p> 1 -- 12</p><p> Modeling heat and mass transfer in fabrics K. Ghali, B. Jones, J. Tracy</p><p> 13 -- 21</p><p> The anisotropic overall thermal conductivity induced by preferentially oriented pores Da Yu Tzou</p><p> 23 -- 30</p><p> Effect of stress acting upon the solid network in the two-phase zone during solidification Q. Yu, M. Makhlouf, D. Apelian</p><p> 31 -- 38</p><p> An inverse analysis for estimating the time-varying inlet temperature in laminar flow inside a parallel plate duct J. C. Bokar, M. N. Ozisik<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 39 -- 45</p><p> Effect of modulation on radiation-induced instability Wen-Mei Yang</p><p> 47 -- 53</p><p> Computation of high-temperature near-wall heat transfer using an enthalpy balancing scheme P. J. Stuttaford, S. Anghaie, W. Shyy</p><p> 55 -- 64</p><p> Planar solidification of a finite slab: effects of the pressure dependence of the freezing point M. Conti</p><p> 65 -- 70</p><p> Exact solutions of Stefan problems for a heat front moving at constant velocity in a quasi-steady state C. K. Hsieh</p><p> 71 -- 79</p><p> Heat and mass transfer in the condensing flow of steam through an absorbing fibrous medium C. V. Le, N. G. Ly, R. Postle<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 81 -- 89</p><p> Laser holographic interferometry study of developing heat transfer in a duct with a detached rib array Tong-Miin Liou, Wen-Bin Wang</p><p> 91 -- 100</p><p> Resolution d'un probleme inverse multidimensionnel de diffusion de la chaleur par la methode des elements analytiques et par le principe de l'entropie maximale Fernando M. Ramos, Andre Giovannini</p><p> 101 -- 111</p><p> Thermal convection in small enclosures: an atypical bifurcation sequence D. Mukutmoni, K. T. Yang</p><p> 113 -- 126</p><p> Experimental investigation of heat transfer in flat plates with rectangular microchannels X. F. Peng, B. X. Wang, G. P. Peterson, H. B. Ma</p><p> 127 -- 137</p><p> Thermal stresses and heat-mass transfer in ablating composite materials Yu. I. Dimitrienko<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 139 -- 146</p><p> Experimental study of free-convective flow on a vertical plate with a constant heat flux in the presence of one or more steps V. S. Burak, S. V. Volkov, O. G. Martynenko, P. P. Khramtsov, I. A. Shikh</p><p> 147 -- 154</p><p> Free-convective heat transfer on a vertical surface with heat-flux discontinuity V. S. Burak, S. V. Volkov, O. G. Martynenko, P. P. Khramtsov, I. A. Shikh</p><p> 155 -- 161</p><p> Radiation transfer in vibrationally nonequilibrium gases E. I. Vitkin, S. L. Shuralyov, V. V. Tamanovich</p><p> 163 -- 173</p><p> Mechanism of condensation heat transfer enhancement in an electric field and the role of capillary processes M. K. Bologa, V. P. Korovkin, I. K. Savin</p><p> 175 -- 182</p><p> Comments on _Transition from transpiration to film cooling_ H. J. H. Brouwers<div class="sm:flex sm:items-center sm:justify-center sm:flex-row sm:space-x-1 insert" style="margin-top:0; margin-bottom:0;"><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script><ins class="adsbygoogle sm:w-1/2" style="display:block; text-align:center;" data-ad-layout="in-article" data-ad-format="fluid" data-full-width-responsive="true" data-ad-slot="9194510535" data-ad-client="ca-pub-9900459938067640" data-adtest="off"></ins><script>(adsbygoogle = window.adsbygoogle || []).push({});</script></div></p><p> 183 -- 184</p><p> Heat transfer by nucleate pool boiling--general correlation based on thermodynamic similarity, Int. J. Heat Mass Transfer 37, 763-769 (1994). W. Leiner</p><p> 185 -- 185</p><p> An improved low-Reynolds-number - turbulence model for recirculating flows, Int. J. Heat Mass Transfer 37, 1495-1508 (1994). H. H. Cho, R. J. 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