Effect of Cross-Sectional Perturbation on Critical Heat Flux Criteria in Microchannels

A variety of predictive correlations for critical heat flux (CHF) are examined in light of the growing body of work exploring enhanced flow boiling CHF via cross-sectional expansion. The analysis considers the effect of a small perturbation of the diameter of a circular microchannel on the predictio...

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Veröffentlicht in:	Journal of heat transfer 2013-10, Vol.135 (10)
Hauptverfasser:	Miner, Mark J, Phelan, Patrick E
Format:	Artikel
Sprache:	eng
Schlagworte:	Channels Criteria Cross sections Heat flux Heat transfer Microchannels Optimization Perturbation methods
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container_title	Journal of heat transfer
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creator	Miner, Mark J Phelan, Patrick E
description	A variety of predictive correlations for critical heat flux (CHF) are examined in light of the growing body of work exploring enhanced flow boiling CHF via cross-sectional expansion. The analysis considers the effect of a small perturbation of the diameter of a circular microchannel on the predictions made by the selected criteria, and seeks to demonstrate an optimum rate of expansion. It is demonstrated that a nonzero diameter expansion necessarily improves performance under several criteria for critical heat flux, and an optimum expansion rate exists for many of these criteria. CHF relations are seen to follow a few distinct types, and those relations which contemplate effects which may directly influence CHF, such as pressure and phase velocity, tend to better reflect the experimentally demonstrated effect of the expanding channel diameter on CHF. Experimental data are examined from several investigators, including the authors' group, and the validity of both the criteria and the analysis is compared to the data.
doi_str_mv	10.1115/1.4024549
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Heat Transfer</addtitle><description>A variety of predictive correlations for critical heat flux (CHF) are examined in light of the growing body of work exploring enhanced flow boiling CHF via cross-sectional expansion. The analysis considers the effect of a small perturbation of the diameter of a circular microchannel on the predictions made by the selected criteria, and seeks to demonstrate an optimum rate of expansion. It is demonstrated that a nonzero diameter expansion necessarily improves performance under several criteria for critical heat flux, and an optimum expansion rate exists for many of these criteria. CHF relations are seen to follow a few distinct types, and those relations which contemplate effects which may directly influence CHF, such as pressure and phase velocity, tend to better reflect the experimentally demonstrated effect of the expanding channel diameter on CHF. 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Heat Transfer</stitle><date>2013-10-01</date><risdate>2013</risdate><volume>135</volume><issue>10</issue><issn>0022-1481</issn><eissn>1528-8943</eissn><abstract>A variety of predictive correlations for critical heat flux (CHF) are examined in light of the growing body of work exploring enhanced flow boiling CHF via cross-sectional expansion. The analysis considers the effect of a small perturbation of the diameter of a circular microchannel on the predictions made by the selected criteria, and seeks to demonstrate an optimum rate of expansion. It is demonstrated that a nonzero diameter expansion necessarily improves performance under several criteria for critical heat flux, and an optimum expansion rate exists for many of these criteria. 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source	Alma/SFX Local Collection; ASME Transactions Journals (Current)
subjects	Channels Criteria Cross sections Heat flux Heat transfer Microchannels Optimization Perturbation methods
title	Effect of Cross-Sectional Perturbation on Critical Heat Flux Criteria in Microchannels
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