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机构地区:[1]西南交通大学牵引动力国家重点实验室,四川成都610031
出 处:《西南交通大学学报》2013年第4期731-737,共7页Journal of Southwest Jiaotong University
基 金:国家自然科学基金资助项目(50823004);"十一五"国家科技支撑计划资助项目(2009BAG12A01-C12);铁道部科技研究开发计划资助项目(2008J013)
摘 要:为研究微尺度下气体在过渡区内的流动特性,基于气体动理学及Knudsen层效应理论,推导了Knudsen数与无量纲松弛时间的关系;应用Succi的边界处理方法和广义二阶滑移边界条件,推导了壁面滑移速度和反弹比例系数的计算公式,建立了适用于过渡区微尺度气体流动的格子Boltzmann模型,并应用该模型对过渡区内微尺度Poiseuille流动进行模拟.结果表明,当稀薄参数取1.64时,计算得到的无量纲速度剖面在整个过渡区与Karniadakis给出的无量纲速度剖面吻合较好,无量纲速度分布在过渡区基本上保持为抛物线形状,边界上的无量纲滑移速度随着Knudsen数的增加而增大,中心线上的无量纲速度随着Knudsen数的增加而减小.In order to study the flow characteristics of micro-scale gas in the transitional regime, the relationship between Knudsen number and dimensionless relaxation time was derived based on the gas kinetic theory and the effect of Knudsen layer. Computational formulas for the slip velocity on the wall and the bounce-back fraction were derived under a generalized second-order slip boundary condition using the boundary treatment method proposed by Succi. Then, a lattice Boltzmann model for micro scale gas flows in the transitional regime was established, and the micro-scale Poiseuille flows in the transitional regime were simulated. Computational results show that when the rarefaction parameter is equal to 1.64, the computed dimensionless velocity profile is in good agreement with the dimensionless velocity profile given by Karniadakis in the whole transitional regime. The dimensionless velocity profile remains essentially a parabolic shape in the transitional regime. As Knudsen number increases, the dimensionless slip velocity rises in the boundary and falls in the center line.
关 键 词:微尺度气体流动 格子BOLTZMANN模型 Knudsen数 滑移速度 过渡区 稀薄参数
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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