Volume 2: Heat Transfer Enhancement for Practical Applications; Heat and Mass Transfer in Fire and Combustion; Heat Transfer In 2013
DOI: 10.1115/ht2013-17731 View full text |Buy / Rent full text
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Abstract: Manifold microchannels utilize a system of manifolds to divide long microchannels into an array of parallel ones, resulting in reduced flow length and more localized liquid feeding. Reducing flow length is desirable because it enables the simultaneous enhancement of heat transfer rate and reduction of pressure drop. Furthermore, localized feeding reduces potential for localized dryout, increasing the operational heat flux. Because of the failure of the available conventional heat transfer correlations to predi… Show more

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“…It was shown in Refs. [15] and [27] that due to the asymmetric feeding and heating present in FEEDS manifold microchannels, a region of dry out tends to form underneath the outlet. As vapor quality increases, this region of dry out increases, and eventually acts to reduce wall heat transfer coefficient, resulting in the optimal vapor qualities that were observed.…”
Section: Resultsmentioning
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“…It was shown in Refs. [15] and [27] that due to the asymmetric feeding and heating present in FEEDS manifold microchannels, a region of dry out tends to form underneath the outlet. As vapor quality increases, this region of dry out increases, and eventually acts to reduce wall heat transfer coefficient, resulting in the optimal vapor qualities that were observed.…”
Section: Resultsmentioning