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In the present work, the liquid-gas two-phase flow around an axial type impeller is studied in a water model, in order to analyze the bubble break-up and coalescence and metal mixing. Details like primary and secondary vortex structure, gas flooding between the blades and gas dispersion are recorded by using high speed photography.","publication_date":"2000,,","publication_name":"International Journal of Chemical Reactor Engineering","grobid_abstract_attachment_id":"52433459"},"document_type":"paper","pre_hit_view_count_baseline":null,"quality":"high","language":"en","title":"Mixing Characteristics of an Axial-Flow Rotor: Experimental and Numerical Study","broadcastable":true,"draft":null,"has_indexable_attachment":true,"indexable":true}}["work"]; window.loswp.workCoauthors = [62402049]; window.loswp.locale = "en"; window.loswp.countryCode = "SG"; window.loswp.cwvAbTestBucket = ""; window.loswp.designVariant = "ds_vanilla"; window.loswp.fullPageMobileSutdModalVariant = "full_page_mobile_sutd_modal"; window.loswp.useOptimizedScribd4genScript = false; window.loswp.appleClientId = 'edu.academia.applesignon';</script><script defer="" 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data-author-id="33189074" href="https://independent.academia.edu/suthepkaewnai">suthep kaewnai</a></div><p class="ds-related-work--metadata ds2-5-body-xs">International Journal of Applied Research in Mechanical Engineering, 2013</p><p class="ds-related-work--abstract ds2-5-body-sm">This study aims to analyze water flow through a centrifugal pump with straight radial blades double-acting impeller using computational fluid dynamics (CFD). The impeller analyzed was designed with the following conditions: a volume flow rate of 33.5 m3/h, head of 100 m, rotational speed of 2,950 rpm, and specific speed of 9. The first stage began with calculations for various dimensions of double-acting isolated impeller and impeller-collector assembly, followed by three-dimensional drawing and domain specification. In the second stage, grids for the isolated impeller and impellercollector assembly were generated. In the third stage, the initial conditions and boundary conditions were specified. Finally, the water flow through the isolated impeller and impeller-collector assembly was analyzed using the CFX 13 code to predict the water flow state. A fluid dynamic analysis of the isolated impeller and impeller-collector assembly reveals that the Q-H curve rises continuously toward sh...</p><div class="ds-related-work--ctas"><button class="ds2-5-text-link ds2-5-text-link--inline js-swp-download-button" data-signup-modal="{"location":"wsj-grid-card-download-pdf-modal","work_title":"Analysis of Flow Through a Double-Acting Impeller with a Straight Radial Blades Using CFD","attachmentId":103695908,"attachmentType":"pdf","work_url":"https://www.academia.edu/103784862/Analysis_of_Flow_Through_a_Double_Acting_Impeller_with_a_Straight_Radial_Blades_Using_CFD","alternativeTracking":true}"><span class="material-symbols-outlined" style="font-size: 18px" translate="no">download</span><span class="ds2-5-text-link__content">Download free PDF</span></button><a class="ds2-5-text-link ds2-5-text-link--inline js-wsj-grid-card-view-pdf" href="https://www.academia.edu/103784862/Analysis_of_Flow_Through_a_Double_Acting_Impeller_with_a_Straight_Radial_Blades_Using_CFD"><span class="ds2-5-text-link__content">View PDF</span><span class="material-symbols-outlined" style="font-size: 18px" translate="no">chevron_right</span></a></div></div><div class="ds-related-work--container js-wsj-grid-card" data-collection-position="7" data-entity-id="62038842" data-sort-order="default"><a class="ds-related-work--title js-wsj-grid-card-title ds2-5-body-md ds2-5-body-link" href="https://www.academia.edu/62038842/Novel_methods_for_axial_fan_impeller_geometry_analysis_and_experimental_investigations_of_the_generated_swirl_turbulent_flow">Novel methods for axial fan impeller geometry analysis and experimental investigations of the generated swirl turbulent flow</a><div class="ds-related-work--metadata"><a class="js-wsj-grid-card-author ds2-5-body-sm ds2-5-body-link" data-author-id="50361879" href="https://independent.academia.edu/MilosNedeljkovic2">Milos Nedeljkovic</a></div><p class="ds-related-work--metadata ds2-5-body-xs">Thermal …, 2010</p><div class="ds-related-work--ctas"><button class="ds2-5-text-link ds2-5-text-link--inline js-swp-download-button" data-signup-modal="{"location":"wsj-grid-card-download-pdf-modal","work_title":"Novel methods for axial fan impeller geometry analysis and experimental investigations of the generated swirl turbulent flow","attachmentId":74908617,"attachmentType":"pdf","work_url":"https://www.academia.edu/62038842/Novel_methods_for_axial_fan_impeller_geometry_analysis_and_experimental_investigations_of_the_generated_swirl_turbulent_flow","alternativeTracking":true}"><span class="material-symbols-outlined" style="font-size: 18px" translate="no">download</span><span class="ds2-5-text-link__content">Download free PDF</span></button><a class="ds2-5-text-link ds2-5-text-link--inline js-wsj-grid-card-view-pdf" href="https://www.academia.edu/62038842/Novel_methods_for_axial_fan_impeller_geometry_analysis_and_experimental_investigations_of_the_generated_swirl_turbulent_flow"><span class="ds2-5-text-link__content">View PDF</span><span class="material-symbols-outlined" style="font-size: 18px" translate="no">chevron_right</span></a></div></div><div class="ds-related-work--container js-wsj-grid-card" data-collection-position="8" data-entity-id="4335065" data-sort-order="default"><a class="ds-related-work--title js-wsj-grid-card-title ds2-5-body-md ds2-5-body-link" href="https://www.academia.edu/4335065/Experimental_and_computational_fluid_dynamics_modeling_of_mixing_by_Visco_jet_impellers">Experimental and computational fluid dynamics modeling of mixing by Visco-jet impellers</a><div class="ds-related-work--metadata"><a class="js-wsj-grid-card-author ds2-5-body-sm ds2-5-body-link" data-author-id="5287206" href="https://kuniv.academia.edu/AmmarAlsairafi">Ammar Alsairafi</a></div><p class="ds-related-work--metadata ds2-5-body-xs">Korean Journal of Chemical Engineering, 2011</p><p class="ds-related-work--abstract ds2-5-body-sm">This paper reports experimental and computational frluid dynamics (CFD) studies on an impeller called Visco-jet with the aim of finding the effect of two side diameters ratio of its blade, which has a semi-conical shape, on drawdown process of floating polymericparticles into high viscosity glycerin solution. Nine different geometries were examined experimentally, and there were significant differences in their performance. The results reveal that when diameter of smaller side of semi-cone impeller is half of the other side, mixing was performed in a more efficient way. The CFD-predicted results have been used for explaining the experimental observation. The CFD-predicted hydrodynamics parameters confirm superiority of this geometry compared with the other ones.</p><div class="ds-related-work--ctas"><button class="ds2-5-text-link ds2-5-text-link--inline js-swp-download-button" data-signup-modal="{"location":"wsj-grid-card-download-pdf-modal","work_title":"Experimental and computational fluid dynamics modeling of mixing by Visco-jet impellers","attachmentId":49928910,"attachmentType":"pdf","work_url":"https://www.academia.edu/4335065/Experimental_and_computational_fluid_dynamics_modeling_of_mixing_by_Visco_jet_impellers","alternativeTracking":true}"><span class="material-symbols-outlined" style="font-size: 18px" translate="no">download</span><span class="ds2-5-text-link__content">Download free PDF</span></button><a class="ds2-5-text-link ds2-5-text-link--inline js-wsj-grid-card-view-pdf" href="https://www.academia.edu/4335065/Experimental_and_computational_fluid_dynamics_modeling_of_mixing_by_Visco_jet_impellers"><span class="ds2-5-text-link__content">View PDF</span><span class="material-symbols-outlined" style="font-size: 18px" translate="no">chevron_right</span></a></div></div><div class="ds-related-work--container js-wsj-grid-card" data-collection-position="9" data-entity-id="6248638" data-sort-order="default"><a class="ds-related-work--title js-wsj-grid-card-title ds2-5-body-md ds2-5-body-link" href="https://www.academia.edu/6248638/New_Turbine_Impellers_for_Viscous_Mixing">New Turbine Impellers for Viscous Mixing</a><div class="ds-related-work--metadata"><a class="js-wsj-grid-card-author ds2-5-body-sm ds2-5-body-link" data-author-id="9617542" href="https://polymtl.academia.edu/LouisFradette">Louis Fradette</a></div><p class="ds-related-work--metadata ds2-5-body-xs">Chemical Engineering & Technology, 2008</p><p class="ds-related-work--abstract ds2-5-body-sm">New open impellers developed for viscous mixing applications were characterized experimentally in terms of power consumption and mixing times, and their performance was compared to that of standard turbines. Their design is based on a nonsymmetry of revolution principle contrary to standard impellers. A color-discoloration technique based on a fast acid-base indicator reaction and image analysis were used to evaluate the mixing efficiency. Experimental results show that the segregated, torus-shaped regions, always observed above and below standard turbine impellers, can be significantly reduced using the new turbine designs generating a well-balanced axial-radial flow field.</p><div class="ds-related-work--ctas"><button class="ds2-5-text-link ds2-5-text-link--inline js-swp-download-button" data-signup-modal="{"location":"wsj-grid-card-download-pdf-modal","work_title":"New Turbine Impellers for Viscous Mixing","attachmentId":48947204,"attachmentType":"pdf","work_url":"https://www.academia.edu/6248638/New_Turbine_Impellers_for_Viscous_Mixing","alternativeTracking":true}"><span class="material-symbols-outlined" style="font-size: 18px" translate="no">download</span><span class="ds2-5-text-link__content">Download free PDF</span></button><a class="ds2-5-text-link ds2-5-text-link--inline js-wsj-grid-card-view-pdf" href="https://www.academia.edu/6248638/New_Turbine_Impellers_for_Viscous_Mixing"><span class="ds2-5-text-link__content">View PDF</span><span class="material-symbols-outlined" style="font-size: 18px" translate="no">chevron_right</span></a></div></div></div></div><div class="ds-sticky-ctas--wrapper js-loswp-sticky-ctas hidden"><div class="ds-sticky-ctas--grid-container"><div class="ds-sticky-ctas--container"><button class="ds2-5-button js-swp-download-button" data-signup-modal="{"location":"continue-reading-button--sticky-ctas","attachmentId":52433459,"attachmentType":"pdf","workUrl":null}">See full PDF</button><button class="ds2-5-button ds2-5-button--secondary js-swp-download-button" data-signup-modal="{"location":"download-pdf-button--sticky-ctas","attachmentId":52433459,"attachmentType":"pdf","workUrl":null}"><span class="material-symbols-outlined" style="font-size: 20px" translate="no">download</span>Download PDF</button></div></div></div><div class="ds-below-fold--grid-container"><div class="ds-work--container js-loswp-embedded-document"><div class="attachment_preview" data-attachment="Attachment_52433459" style="display: none"><div class="js-scribd-document-container"><div class="scribd--document-loading js-scribd-document-loader" style="display: block;"><img alt="Loading..." src="//a.academia-assets.com/images/loaders/paper-load.gif" /><p>Loading Preview</p></div></div><div style="text-align: center;"><div class="scribd--no-preview-alert js-preview-unavailable"><p>Sorry, preview is currently unavailable. 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