EFFECTS OF SURFACE ROUGHNESS ON SINGLE PHASE FLUID FLOW AND HEAT TRANSFER CHARACTERISTICS IN MICROCHANNELS

机译：表面粗糙度对微通道内单相流体流动和传热特性的影响

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A two dimensional numerical simulation is conducted to investigate the flow and heat transfer characteristics of single phase liquid laminar flow through rough microchannels. The wall roughness is simulated in a series of cases with rectangular, triangular and trapezoidal elements, respectively. Shape factor and peak position have been used to analyze the influence of roughness elements on centerline velocity distribution, pressure drop and Nusselt number. It is found that the shape factor has a significant effect on the centerline velocity distribution, pressure drop and Nusselt number. It is also found that, for a given shape factor, the effect of peak position on pressure drop is strongly than centerline velocity distribution and heat transfer. In addition, for all considered roughness element shapes, the rectangular element displays a poor heat transfer and large pressure drop.

机译：进行了二维数值模拟，以研究单相液体层流通过粗糙微通道的流动和传热特性。在分别使用矩形，三角形和梯形元素的一系列情况下模拟壁粗糙度。形状因子和峰位置已用于分析粗糙度元素对中心线速度分布，压降和Nusselt数的影响。发现形状因数对中心线速度分布，压降和努塞尔数具有显着影响。还发现，对于给定的形状因数，峰值位置对压降的影响要比中心线速度分布和传热强烈。另外，对于所有考虑的粗糙度元件形状，矩形元件显示出较差的热传递和较大的压降。

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《IMECE2009;ASME international mechanical engineering congress and exposition》|2010年|P.741-748|共8页
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Jinli Lu; Yingli Hao;
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中图分类机械设计、计算与制图;
关键词
surface roughness; pressure drop; heat transfer; shape factor; peak position;

机译：表面粗糙度;压力下降;传播热量;形状因数高峰位置;

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EFFECTS OF SURFACE ROUGHNESS ON SINGLE PHASE FLUID FLOW AND HEAT TRANSFER CHARACTERISTICS IN MICROCHANNELS

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