ENTROPY GENERATION IN THERMALLY DEVELOPING LAMINAR FORCED CONVECTION THROUGH A SLIT MICROCHANNEL

机译：通过条形微通道在热发展层流强迫对流中产生熵

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The issue of entropy generation in laminar forced convection of a Newtonian fluid through a slit microchannel is analytically investigated by taking the viscous dissipation effect, the slip velocity and the temperature jump at the wall into account. Flow is considered to be hydrodynamically fully developed but thermally developing. The energy equation is solved by means of integral transform. The results demonstrate that to increase Knudsen number is to decrease entropy generation, while the effect of increasing values of Brinkman number and the group parameter is to increase entropy generation. Also it is disclosed that in the thermal entrance region the average entropy generation number over the cross section of channel is an increasing function of axial coordinate.

机译：牛顿流体通过狭缝微通道的层流强迫对流中产生熵的问题，是通过考虑粘性耗散效应，滑移速度和壁面温度跳变来分析研究的。流动被认为是流体动力学上充分发展而热发展的。能量方程通过积分变换求解。结果表明，增加克努森数可减少熵的产生，而增加布林克曼数和群参数的值的作用是增加熵的产生。还公开了在热入口区域中，通道横截面上的平均熵产生数是轴向坐标的增加函数。

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《International conference on nanochannels, microchannels and minichannels;ICNMM2010》|2011年|p.515-526|共12页
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作者
Arman Sadeghi; Mostafa Baghani; Mohammad Hassan Saidi;
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正文语种
中图分类特种结构材料;
关键词
MicroChannel; Slip flow; Viscous dissipation; Knudsen number; Entropy generation; Bejan number;

机译：微通道;滑流粘性耗散;努森数;熵产生;贝让号;
入库时间 2022-08-26 14:22:59

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ENTROPY GENERATION IN THERMALLY DEVELOPING LAMINAR FORCED CONVECTION THROUGH A SLIT MICROCHANNEL

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