COMPARISON OF GAS SLIP MODELS WITH SOLUTIONS OF LINEARIZED BOLTZMANN EQUATION AND DIRECT SIMULATION OF MONTE CARLO METHOD

G. H. TANG; Y. L. HE; W. Q. TAO

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COMPARISON OF GAS SLIP MODELS WITH SOLUTIONS OF LINEARIZED BOLTZMANN EQUATION AND DIRECT SIMULATION OF MONTE CARLO METHOD

机译：气体滑动模型与线性化的Boltzmann方程解的比较以及蒙特卡罗方法的直接模拟

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Analytical solutions of the Navier–Stokes equation based on a locally fully-developed flow assumption with various gas slip models are presented and comparisons for velocity profile, flow rate, friction factor, and pressure distribution are performed. The effect of the second-order coefficient in the slip boundary condition becomes significant as the Knudsen number increases. Most slip models are limited to slip regime or marginally transition regime and break down around Kn = 0.1 while Sreekanth's model, followed by Mitsuya's model, gives a good agreement with the linearized Boltzmann solutions from slip regime up to Kn = 2 for flow rate and friction factor predictions. These two models should be of great use for slip flow analysis in micro-electro-mechanical systems (MEMS) and, in particular, in situations where the flow rate and flow resistance are of interest.

机译：给出了基于局部完全发展的流量假设和各种气滑模型的Navier–Stokes方程的解析解，并对速度分布，流速，摩擦系数和压力分布进行了比较。随着克努森数的增加，滑移边界条件中的二阶系数的影响变得明显。大多数滑动模型仅限于滑动状态或边际过渡状态，并且分解到Kn = 0.1左右，而Sreekanth模型和Mitsuya模型紧随其后，与线性化的Boltzmann解很好地吻合，从滑动状态直到Kn = 2流量和摩擦因素预测。这两个模型在微机电系统（MEMS）中的滑流分析中，尤其是在流速和流阻受到关注的情况下，应该非常有用。

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《International Journal of Modern Physics, C. Physics and Computers》 |2007年第2期|共14页
作者
G. H. TANG; Y. L. HE; W. Q. TAO;
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正文语种 eng
中图分类物理学;
关键词
Slip flow; Knudsen number; Navier–Stokes equation; slip model;

机译：滑流;努森数;Navier-Stokes方程;滑模;

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1. COMPARISON OF GAS SLIP MODELS WITH SOLUTIONS OF LINEARIZED BOLTZMANN EQUATION AND DIRECT SIMULATION OF MONTE CARLO METHOD [J] . G. H. TANG, Y. L. HE, W. Q. TAO International Journal of Modern Physics, C. Physics and Computers . 2007,第2期

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COMPARISON OF GAS SLIP MODELS WITH SOLUTIONS OF LINEARIZED BOLTZMANN EQUATION AND DIRECT SIMULATION OF MONTE CARLO METHOD

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