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Date of download: 10/2/2017 Copyright © ASME. All rights reserved. From: Combined Dielectrophoretic and Electrohydrodynamic Conduction Pumping for Enhancement of Liquid Film Flow Boiling J. Heat Transfer. 2017;139(6): doi: / Figure Legend: Concept of liquid film flow boiling with combined EHD conduction and DEP force
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Date of download: 10/2/2017 Copyright © ASME. All rights reserved. From: Combined Dielectrophoretic and Electrohydrodynamic Conduction Pumping for Enhancement of Liquid Film Flow Boiling J. Heat Transfer. 2017;139(6): doi: / Figure Legend: Schematic showing electrode dimensions and spacing between electrode pairs (only ¼ of the full circle is illustrated)
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Date of download: 10/2/2017 Copyright © ASME. All rights reserved. From: Combined Dielectrophoretic and Electrohydrodynamic Conduction Pumping for Enhancement of Liquid Film Flow Boiling J. Heat Transfer. 2017;139(6): doi: / Figure Legend: Stainless steel DEP electrode design
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Date of download: 10/2/2017 Copyright © ASME. All rights reserved. From: Combined Dielectrophoretic and Electrohydrodynamic Conduction Pumping for Enhancement of Liquid Film Flow Boiling J. Heat Transfer. 2017;139(6): doi: / Figure Legend: Heater assembly showing copper heater piece installed in Delrin insulator
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Date of download: 10/2/2017 Copyright © ASME. All rights reserved. From: Combined Dielectrophoretic and Electrohydrodynamic Conduction Pumping for Enhancement of Liquid Film Flow Boiling J. Heat Transfer. 2017;139(6): doi: / Figure Legend: Cross section of experiment housing showing two chambers separated by interface plate
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Date of download: 10/2/2017 Copyright © ASME. All rights reserved. From: Combined Dielectrophoretic and Electrohydrodynamic Conduction Pumping for Enhancement of Liquid Film Flow Boiling J. Heat Transfer. 2017;139(6): doi: / Figure Legend: DEP electrode installed in liquid film flow boiling experiment
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Date of download: 10/2/2017 Copyright © ASME. All rights reserved. From: Combined Dielectrophoretic and Electrohydrodynamic Conduction Pumping for Enhancement of Liquid Film Flow Boiling J. Heat Transfer. 2017;139(6): doi: / Figure Legend: Experimental data and correlation prediction for combined EHD-pumping and DEP-enhanced liquid film flow boiling/pool boiling
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Date of download: 10/2/2017 Copyright © ASME. All rights reserved. From: Combined Dielectrophoretic and Electrohydrodynamic Conduction Pumping for Enhancement of Liquid Film Flow Boiling J. Heat Transfer. 2017;139(6): doi: / Figure Legend: Low heat flux data for all the cases from Fig. 7 (excluding correlation predictions)
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Date of download: 10/2/2017 Copyright © ASME. All rights reserved. From: Combined Dielectrophoretic and Electrohydrodynamic Conduction Pumping for Enhancement of Liquid Film Flow Boiling J. Heat Transfer. 2017;139(6): doi: / Figure Legend: Heater/DEP electrode geometry
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Date of download: 10/2/2017 Copyright © ASME. All rights reserved. From: Combined Dielectrophoretic and Electrohydrodynamic Conduction Pumping for Enhancement of Liquid Film Flow Boiling J. Heat Transfer. 2017;139(6): doi: / Figure Legend: Four x-locations for electric field calculations
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Date of download: 10/2/2017 Copyright © ASME. All rights reserved. From: Combined Dielectrophoretic and Electrohydrodynamic Conduction Pumping for Enhancement of Liquid Film Flow Boiling J. Heat Transfer. 2017;139(6): doi: / Figure Legend: Square of electric field magnitude along y-axis at various x-locations
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Date of download: 10/2/2017 Copyright © ASME. All rights reserved. From: Combined Dielectrophoretic and Electrohydrodynamic Conduction Pumping for Enhancement of Liquid Film Flow Boiling J. Heat Transfer. 2017;139(6): doi: / Figure Legend: Estimation of DEP force magnitude along y-axis at various x-locations versus buoyancy force for 0.5 mm bubble diameter
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