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机构地区:[1]浙江大学力学系,杭州310027
出 处:《力学学报》1998年第6期737-742,共6页Chinese Journal of Theoretical and Applied Mechanics
基 金:国家自然科学基金
摘 要:采用RNGK-ε模型,对统平板壁面上的条柱、方柱等多种不同形状二维小障碍物的固壁剪切湍流进行数值研究,获得了小障碍物下游回流区及其发展区的时均速度场、回流分离点长度和湍流边界层厚度,计算结果与实验比较吻合良好.结果表明,小障碍物在壁面上的设置,明显地改变了平板壁面边界层的湍流形态和结构.The solid wall turbulent shear flow behind two-dimensional small obstacles placed onthe plane is numerically simulated using RNG K-ε model and standard K-ε model. The model ofsmall obstacles used in this study have nine types, such as plate, square and cylinder et al. A finitevolume method with the collocated variable arrangement employing orthogonal grids was used tosolve the equation system. The pressure and mean velocity, turbulent energy, dissipation rate ofturbulent energy are coupled by SIMPLE algorithm of Patankal and Spalding. The predictionsgive profile of mean velocity, flow reattachment point and thickness of turbulent shear layer. Thecalculations in present paper are in good agreement with the experimental data. The results showthat adding small obstacles on the plane boundary change velocity profile and turbulent structurenear the wall. The geometry of small obstacles has great influence on the intensity of vortex andthe length of reattachment point.l) The project supported by the National Natural Science foundation of China (19672055).
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