`WALL-ADJACENT LAYER' ANALYSIS FOR DEVELOPED-FLOW LAMINAR HEAT TRANSFER OF GASES IN MICROCHANNELS

JUN-MING LI; BU-XUAN WANG; XIAO-FENG PENG

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`WALL-ADJACENT LAYER' ANALYSIS FOR DEVELOPED-FLOW LAMINAR HEAT TRANSFER OF GASES IN MICROCHANNELS

机译：微通道中气体发展流层流传热的“壁邻层”分析

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The wall effect on heat transfer characteristics was investigated for gas laminar flow through microchannels. In an extremely thin layer adjacent to the solid wall, we called `wall-adjacent layer', the change in thermal conductivity of gas vs the distance from the wall surface was derived from the kinetic theory of gases. A model including the variation of thermal conductivity was built to investigate the heat transfer rule. Analytical expressions for temperature profiles and hat transfer coefficients were derived respectively for fully developed laminar flow heat transfer of gases in microtubes and in plain microchannels. The investigation shows that the change of thermal conductivity of gas in `wall-adjacent layer' would result in significant influence on the heat transfer when passage size is small enough.

机译：对于通过微通道的气体层流，研究了壁对传热特性的影响。在与固体壁相邻的极薄层中，我们称为“壁相邻层”，气体的热导率随距壁表面距离的变化是根据气体的动力学理论得出的。建立了一个包含热导率变化的模型来研究传热规律。对于微管和普通微通道中气体的充分发展的层流传热，分别导出了温度分布图和帽子传递系数的解析表达式。研究表明，当通道尺寸足够小时，“壁相邻层”中气体导热系数的变化将对传热产生重大影响。

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来源
《International Journal of Heat and Mass Transfer》 |2000年第5期|839-847|共9页
作者
JUN-MING LI; BU-XUAN WANG; XIAO-FENG PENG;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类热力工程理论;热学;
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入库时间 2022-08-18 00:22:59

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`WALL-ADJACENT LAYER' ANALYSIS FOR DEVELOPED-FLOW LAMINAR HEAT TRANSFER OF GASES IN MICROCHANNELS

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