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W2388207761 abstract "With distilled water and anhydrous alcohol serving as the working medium respectively,studied was the influence of the atomization flow rate,surface structure and atomization working medium on the heat transfer performance in a closed type cycle atomization and cooling system.For the first time from the viewpoint of convection-based heat exchange and phase-change heat exchange proportions,the authors trimmed and analyzed the test data.It has been found that with an increase of the atomization flow rate,the heat flux density will increase while the phase-change heat exchange proportion will decrease.When the water atomization flow rate is 227.1 g/min and temperature on the surface is 74.32℃,the heat flux density will hit 6.8×10~5 W/m~2.The temperature on the surface has a relatively big influence on the heat exchange.The higher the temperature,the better the heat exchange performance.The heat exchange of anhydrous alcohol is always superior to that of distilled water,especially when the temperature on the surface is relatively high,the intensified heat exchange effectiveness will be more evident.The phase-change heat exchange proportion of the anhydrous alcohol is also invariably higher than that of distilled water.When the temperature on the surface is 50℃ and both flow rates are concurrently 27.52 g/min,the phase-change heat exchange proportion of distilled water is only 20.4% but that of anhydrous alcohol reaches 55.5%.Although the micro-structure surface weakens the convection-based heat exchange capacity,it thins the liquid film thickness and enhances the phase-change heat exchange capacity,thus greatly upgrading the heat exchange effectiveness.A non-dimensional criterion equation reflecting the influence of the temperature on the surface was given." @default.
W2388207761 created "2016-06-24" @default.
W2388207761 creator A5063588863 @default.
W2388207761 date "2012-01-01" @default.
W2388207761 modified "2023-09-26" @default.
W2388207761 title "Experimental Study of the Atomization Cooling and Heat Transfer Characteristics of a Closed Type Cycle" @default.
W2388207761 hasPublicationYear "2012" @default.
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