微通道内气体流动的DSMC模拟被引量：1

DSMC Simulation on Gas Fluid in Microchannels

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摘要分析了求解微通道内的气体流动的各种方法,用直接模拟蒙特卡洛方法(DSMC)计算了微气体流动中最经典的Couette流动问题。结果表明:在滑流区和过渡区速度滑移和温度跳跃现象明显;滑移速度、剪切力和温度跳跃量均随Kn数增大而增大,滑移速度和剪切力增长速度递减;仿真结果与线性化Boltzmann方程数值解一致,适用范围较滑移边界条件下的N-S方程解析解宽;DSMC方法对高Kn数下微通道气体流动的仿真易于实现,正确有效。 Various methods of solving gas fluid in micro-channels are analyzed, and the direct simulation Monte Carlo （DSMC） method is used to simulate the Couette flow, which is the most classical gas micro-flow. The results show that the phenomena of velocity slip and temperature jump are obvious in the slip flow and transition regimes. The values of the slip velocity, shearine stress and temperature jump increase along with Kn increasing, and the increasing velocities of the two former paremeters decrease. The simulation results using DSMC agree well with the numerical solutions to linearized Boltzmann equation and are more applicable than the analytical solutions to N-S equation in slip boundary conditions. The DSMC method is accurate, effective and easy to carry out in the simulation on gas fluid in micro-channels.

作者杨宪章魏守水何晓川

机构地区山东大学控制科学与工程学院

出处《武汉理工大学学报》 CAS CSCD 北大核心 2009年第13期99-103,共5页 Journal of Wuhan University of Technology

基金国家自然科学基金(10572078) 山东省自然科学基金(Y2007A16)

关键词微气体流动 DSMC方法 N—S方程 BOLTZMANN方程 COUETTE流动 gas micro-flow DSMC method N-S equation Boltzmann equation Couette flow

分类号 V211.25 [航空宇航科学与技术—航空宇航推进理论与工程]

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参考文献11

1Pareschi, Lorenzo. Time Relaxed Monte Carlo Methods for the Boltzmann Equation[J]. SIAM Journal on Scientific Computing, 2001, 23(4) : 1253-1273.
2Abdou M A. Chaprnan-Enskog-maximum Entropy Method on Time-dependent Neutron Transport Equation[J]. Journal of Quantitative Spectroscopy and Radiative Transfer, 2006, 101 (2) : 210-225.
3Jin S, Slemrod M, Regularization of the Burnett Equations for Rapidgranular Flows via Relaxation[J]. Physica D, 2001,150: 207-218.
4Bird G A. Molecular Gas Dynamics and the Direct Simulation of Gas Flows [M]. Oxford: Clarendon Presa, 1994.
5Beskok A. Simulation and Models for Gas Flows in Microgeometries[D]. New Jersey: Princeton University, 1996.
6沈青.MEMS稀薄气体内部流动模拟中的信息保存(IP)法[J].力学进展,2006,36(1):142-150. 被引量：5
7FAN Jing, SHEN Ching. Statistical Simulation of Low-speed Rarefied Gas Flows[J]. Journal of Computational Physics, 2001, 16(0);393-398.
8Bird G A. Recent Advances and Current Challenges for DSMC[J ]. Computers Math Applic, 1998,35 (1.2):1-14,.
9Stavroudis, Orestes N. Maxwell Equations and the k Function[J]. Journal of the Optical Society of America A: Optics and Image Science, and Vision, 2000, 17(8) : 1469-1474.
10Wang M R. Monte Carlo Simulation on Micro- and Nanoscale Gas Flow and Heat Transfer[D]. Beijing: Tsinghua University, 2004.

二级参考文献36

1Shen C,Jiang J Z,Fan J.Information preservation method for the case of temperature variation.In:Bartel T J,Gallis M A,eds.Rarefied Gas Dynamics,AIP proceedings-585,2001.185～192
2Sun Q H,Boyd I D.A direct simulation method for subsonic,microscale gas flows.J Computational Physics,2002,179:400～425
3Shen C.Phys.of Fluids,2005,17:046101
4Veijola T,Kuisma H,Lahdenpera J.Equivalent-circuit model of the squeezed gas film in a silicon accelerometer.Sensors and Actuators,1995,A48:239
5Jiang J,Shen C,Fan J.Statistical simulation of non-circular cross section Poiseuille flows.In:Proceedings of the 1st Intern.Conference on micro and mini-channels,ASME,2003.411～418
6Reynolds O.On the theory of lubrication and its application to Mr.Beauchamp Tower's experiments including an experimental determination of the viscosity of the olive oil.Philos Trans R Soc London,1886,A177:157～234
7Gross W A,Matsch L A,Castelli V,Eshel A,et al.Fluid Film Lubrication.New York:Wiley,1980
8Cercignani C,Daneri A.Flow of a rarefied gas between two parallel plates.J Applied Physics,1963,34:3509～3513
9Fukui S,Kaneko R.A database for interpolation of Poiseuille flow rates for high Knudsen number lubrication problems.J Tribology,1990,112:78～83
10Jiang J Z,Shen C,Fan J.Statistical simulation of thin-film bearings.Capitelli M,ed.Rarefied Gas Dynamics,AIP proceedings-762,2005.180～185

共引文献4

1叶建军,刘鹏飞,杨健,郑津洋,贺世正,李维仲.基于压力边界的微流道气体流动数值模拟方法[J].浙江大学学报（工学版）,2008,42(5):820-825. 被引量：2
2肖洪,吴丁毅,刘振侠,廉筱纯.高空状态下高超声速乘波飞行器气动性能模拟[J].兵工学报,2009,30(7):907-910. 被引量：3
3马琳.低速稀薄气流问题外文文献综述[J].内蒙古煤炭经济,2018(20):65-67.
4牛青林,董士奎.火箭发动机喷焰红外辐射数值计算方法研究(特邀)[J].光电技术应用,2023,38(1):1-10. 被引量：4

同被引文献6

1王学德,伍贻兆,夏健.二维非结构网格DSMC方法的实现及其应用[J].南京航空航天大学学报,2004,36(6):704-707. 被引量：8
2汤继斌,钟诚文.一种基于结构化贴体网格的DSMC方法研究[J].航空计算技术,2005,35(2):57-61. 被引量：2
3沈青,樊菁,胡振华,徐晓燕.过渡领域三维绕流直接统计模拟位置元法的一种新方案[J].空气动力学学报,1996,14(3):295-303. 被引量：10
4侯凤龙,蔡国飙.应用于DSMC方法的直角网格技术[J].北京航空航天大学学报,2010,36(6):694-699. 被引量：3
5樊菁,彭世锍,刘宏立,沈青,陈黎明.DSMC位置元方法中的表面元的程序标识及分子表面反射确定论判据[J].力学学报,1999,31(6):671-676. 被引量：9
6王春财,程嘉,季林红,路益嘉,孙钰淳,林嘉.基于Delaunay三角形网格的2维DSMC算法实现及应用[J].清华大学学报（自然科学版）,2015,55(10):1079-1086. 被引量：2

引证文献1

1杜松蔚,王学德.一种基于双重空间网格结合的高效DSMC实现方法[J].航空动力学报,2022,37(9):1846-1854.

1王灿,杨爱玲,陈康民.二维微槽道内的流动模拟[J].上海理工大学学报,2006,28(2):133-135. 被引量：1
2Kun Xu,Zhaoli Guo.MULTIPLE TEMPERATURE GAS DYNAMIC EQUATIONS FOR NON-EQUILIBRIUM FLOWS[J].Journal of Computational Mathematics,2011,29(6):639-660. 被引量：1
3陈伟芳,吴其芬.Boltzmann方程求解方法综述[J].国防科技大学学报,1999,21(1):4-7. 被引量：8
4陈林,唐登斌.STUDY ON TURBULENT SPOTS IN PLANE COUETTE FLOW[J].Transactions of Nanjing University of Aeronautics and Astronautics,2007,24(3):211-217.
5程朝青,崔健,李志平,龚一方,李秋实.一种改进的压气机叶尖泄漏流堵塞预估模型及数值验证[J].航空动力学报,2011,26(5):1104-1110. 被引量：1
6马艳红,胡军.基于C-W制导的瞄准点修正技术[J].空间控制技术与应用,2009,35(5):52-55. 被引量：1
7曹文斌,李桦,高洪贺.滑移边界条件的收敛性分析及应用[J].国防科技大学学报,2013,35(1):12-18. 被引量：4
8袁妙恩.Ianiro和Triolo模型Boltzmann方程中Q(f,f)=0的解[J].内蒙古大学学报（自然科学版）,1991,22(4):470-472.
9孙建红,蔡周鑫.FLOW CHARACTERISTIC AND HEAT TRANSFER FOR SINGLE PHASE GASEOUS IN SLIP REGIME OF MICROCHANNEL FLOW[J].Transactions of Nanjing University of Aeronautics and Astronautics,2007,24(4):288-293.
10李多,洪冠新.机翼滑移过程气动力与稳定性分析[J].飞行力学,2015,33(4):293-296.

武汉理工大学学报

2009年第13期

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微通道内气体流动的DSMC模拟被引量：1

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微通道内气体流动的DSMC模拟 被引量：1

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微通道内气体流动的DSMC模拟被引量：1