NUMERICAL INVESTIGATION OF GASEOUS MICROCHANNEL FLOW IN TRANSITION REGIMES

Pei-Yuan Tzeng; Ping-Hsuang Chen; Ming-Ho Liu

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NUMERICAL INVESTIGATION OF GASEOUS MICROCHANNEL FLOW IN TRANSITION REGIMES

机译：过渡区气态微通道流动的数值研究

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Pressure-driven low subsonic gaseous flows in a MicroChannel are studied numerically by the Direct Simulation Monte Carlo (DSMC) method. The Variable Hard Sphere (VHS) molecular model and Larsen-Borgnakke procedures are adopted. The Knudsen number (kn) is adjusted by varying inlet/outlet pressure for a range of transition regimes. Cases of different channel aspect ratios and wall temperatures with the fixed inlet/outlet pressure or constant average pressure-gradient boundary conditions are investigated. The results indicate that both the channel length and heat transfer affect the rarefaction of the flow. The downstream variations in flow properties are strongly dependent on Kn, aspect ratio, and heat transfer, and generally are in qualitative agreement with the Fanno/Rayleigh theory.

机译：通过直接模拟蒙特卡洛（DSMC）方法对微通道中压力驱动的低亚音速气态流进行了数值研究。采用可变硬球（VHS）分子模型和Larsen-Borgnakke方法。通过改变一系列过渡状态的入口/出口压力来调整克努森数（kn）。研究了具有固定入口/出口压力或恒定平均压力梯度边界条件的不同通道长宽比和壁温的情况。结果表明，通道长度和传热都会影响流动的稀疏性。流动特性的下游变化在很大程度上取决于Kn，纵横比和传热，并且通常与Fanno / Rayleigh理论在质量上一致。

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来源
《Journal of Flow Visualization and Image Processing》 |2005年第1期|p.73-94|共22页
作者
Pei-Yuan Tzeng; Ping-Hsuang Chen; Ming-Ho Liu;
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作者单位

Chung Cheng Institute of Technology, National Defense University Ta-Hsi, Tao-Yuan 33509, TAIWAN, R.O.C.;

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原文格式 PDF
正文语种 eng
中图分类应用力学;
关键词
DSMC; microchannel flow; heat transfer; transition regime; fanno/rayleigh flow;

机译：DSMC;微通道流动;传热;过渡态;范诺/瑞利流;

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NUMERICAL INVESTIGATION OF GASEOUS MICROCHANNEL FLOW IN TRANSITION REGIMES

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