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微细圆管中气体流动的稀薄效应和可压缩效应 被引量:2

The Rarefaction and Compressibility Effects of the Gas Flow in Circular Microtube
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摘要 采用有限差分法计算了微细圆管中的气体流动 .当Knudsen数处于 1 0 -3与 1 0 -1之间时 ,气体的稀薄效应造成流动气体与管壁之间的相对滑移 .计算结果详细描述了边界滑移对管摩擦系数及流量的影响 .计算还表明 ,虽然在微细圆管的气体流动中马赫数很小 ,但由于同时也具有很低的雷诺数及很小的管径、管长比 。 The gas flow in a circular microtube is studied by using the finite difference technique. When Knudsen number is in the range that is between 10 -3 and 10 -1 , the gas rarefaction effect causes relative slip of flow to the tube wall. The numerical results comprehensively describe the influence of the boundary slip on mass flow rate. The results also indicate that the gas compressibility significantly affects mass flow rate due to extremely low Reynolds number of the flow and small diameter length ratio of the tube, though the Mach number in the gas flow in a circular microtube is very small.
作者 赵汉中
机构地区 华中科技大学土木工程与力学学院
出处 《华中科技大学学报(自然科学版)》 EI CAS CSCD 北大核心 2001年第10期96-98,共3页 Journal of Huazhong University of Science and Technology(Natural Science Edition)
关键词 微细圆管 稀薄效应 压缩效应 有限差分 气体流动 microtube rarefaction effect compressibility effect finite difference
分类号 O354 [理学—流体力学]
  • 相关文献

参考文献2

  • 1Guo Z Y,Microscale Thermophysical Engineering,1998年,2期,111页
  • 2Barron R F,Int J Heat Mass Transfer,1997年,40卷,1817页

同被引文献37

  • 1何雅玲,王勇,李庆.格子Boltzmann方法的理论及应用[M].北京:科学出版社,2008.
  • 2Karniadakis G E, Beskok A. Micro Flows[M]. Springer-Verlig,New York,Berlin Herdelberg 2001.
  • 3Oran E S, Oh C M, Liu J Q,et al. Non-linear Pressure Distribution in Uniform Microchannels[J]. ASME-FED, 1994, 197: 51.
  • 4Fan J, Shen C. Statistical Simulation of Low-speed Unidirectional Flows in Transition Regime[R]. 21st International Symposium on Rarefied Gas Dynamics, Marseilles, 1999.
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  • 6Fan J, Boyd I D, Cai C P, et al. Computation of Rarefied Gas Flows Around a NACA 0012 Airfoil[J]. AIAA J., 2001,39(4): 618.
  • 7Sun Q, Boyd I D, Fan J. Development of an Information Preservation Method of Subsonic, Micro-scale Gas Flows[A]. Rarefied Gas Dynamics[M]. AIP, 54 7, 2000.
  • 8Liu H L, Xie C, Shen C, et al. Flow in Membrane Filter Simulated as Micro channel Flow with Diaphragm[A]. Rarefied Gas Dynamics[M]. AIP, 524, 2000.
  • 9Cai C P, Boyd I D, Fan J, et al. Direct Simulation Methods for Low-speed Microchannel Flows[J]. J. Thermophysics and Heat Transfer, 2000, 14(3): 368.
  • 10Bird G A. Molecular Gas Dynamics and Direct Simulation of Gas Flow[M]. Clarendon,Oxford, 1994.

引证文献2

二级引证文献23

华中科技大学学报(自然科学版)
2001年 第10期

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