Effect of Surface Temperature on Rarefied Flow Past a Circular Micro-Cylinder

ASME 2019 6th International Conference on Micro/Nanoscale Heat and Mass Transfer Pub Date : 2019-12-02 DOI:10.1115/mnhmt2019-4232
X. Gu, D. Emerson
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Abstract

A high-order moment method is employed to study the effect of the wall temperature on gas flow past a stationary circular cylinder in terms of the size of the vortices behind the cylinder and the drag coefficient. When the wall temperature is lower than the free stream temperature, flow separation occurs at a lower Reynolds number and the vortex length is elongated with a corresponding reduction in the drag coefficient. Conversely, increasing the wall temperature above the free stream temperature delays the onset of flow separation and increases the drag coefficient.
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表面温度对微圆柱稀薄流动的影响
采用高阶矩法研究了壁面温度对静止圆柱气流的影响,包括圆柱后涡的大小和阻力系数。当壁面温度低于自由流温度时,流动分离发生在较低的雷诺数下,涡流长度延长,阻力系数相应减小。相反,将壁面温度提高到自由流温度以上会延迟流动分离的开始,并增加阻力系数。
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ASME 2019 6th International Conference on Micro/Nanoscale Heat and Mass Transfer
ASME 2019 6th International Conference on Micro/Nanoscale Heat and Mass Transfer
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