Pool Boiling Heat Transfer From Plain and Microporous, Square Pin Finned Surfaces in Saturated FC-72

Heat Transfer: Volume 4 Pub Date : 1999-11-14 DOI:10.1115/1.1288708

K. Rainey, S. M. You

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引用次数: 203

Abstract

The present research is an experimental study of “double enhancement” behavior in pool boiling from heater surfaces simulating microelectronic devices immersed in saturated FC-72 at atmospheric pressure. The term “double enhancement” refers to the combination of two different enhancement techniques: a large-scale area enhancement (square pin fin array) and a small-scale surface enhancement (microporous coating). Fin lengths were varied from 0 (flat surface) to 8 mm. Effects of this double enhancement technique on critical heat flux (CHF) and nucleate boiling heat transfer in the horizontal orientation (fins are vertical) are investigated. Results showed significant increases in nucleate boiling heat transfer coefficients with the application of the microporous coating to the heater surfaces. CHF was found to be relatively insensitive to surface microstructure for the finned surfaces except in the case of the surface with 8 mm long fins. The nucleate boiling and CHF behavior has been found to be the result of multiple, counteracting mechanisms: surface area enhancement, fin efficiency, surface microstructure (active nucleation site density), vapor bubble departure resistance, and re-wetting liquid flow resistance.

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饱和FC-72中平孔和微孔、方销翅片表面的池沸腾传热

本研究是在常压下模拟微电子器件浸入饱和FC-72的加热器表面进行池沸腾“双强化”行为的实验研究。“双增强”一词是指两种不同增强技术的结合:大规模面积增强(方针鳍阵列)和小规模表面增强(微孔涂层)。翅片长度从0(平面)到8 mm不等。研究了双强化技术对水平方向(翅片垂直)临界热流密度和成核沸腾传热的影响。结果表明，微孔涂层在加热器表面的应用显著提高了成核沸腾换热系数。除了具有8 mm长翅片的表面外，CHF对翅片表面的微观结构相对不敏感。研究发现，成核沸腾和CHF行为是多种相互抵消机制的结果:表面积增强、翅片效率、表面微观结构(活性成核位置密度)、汽泡偏离阻力和再润湿液体流动阻力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Heat Transfer: Volume 4

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