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微尺度内流流场数值模拟方法及实验 被引量:10

Numerical Simulating Approaches and Experiment on Micro-scales Flow Field
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摘要 以Micro-PIV实验测量的微尺度流场为基础,利用Fluent数值计算软件设计最佳微尺度流动数值模拟方案。针对微尺度特性,采用设定壁面粗糙度和多孔介质模拟粗糙元的微尺度效应处理方法,利用Fluent软件提供的realizablek-ε模型和标准k-ω模型,分别在Reynolds数为100和300情况下对边长600μm的矩形断面的微通道内流场水流流动进行数值模拟,通过各种数值模拟方案下计算出的速度场与Micro-PIV实验结果的对比,得出以多孔介质模拟壁面粗糙元、配合realizablek-ε模型进行数值计算的方案是微尺度流场CFD的最佳方案。 On the basis of micro-scales flow field detected by Micro-PIV experiment,Fluent numerical analytic computing software was utilized to design the optimum micro-scales flow simulating plan.In accordance with features of micro-scales,the micro-scales effect manipulating approaches setting wall roughness element and the porous medium simulating wall roughness element was adopted during the design.In the experiment,using realizable k-ε model and standard k-ω model provided by Fluent software,the relative numerical simulations on the rectangle cross section micro-scales water flowing with side length of 600 μm in the case of Re=100 and Re=300 was done.With the comparison of velocity field computed from various numerical analyses and the fitting degree of Micro-PIV experimental outcome,the optimum plan that designing case via the porous medium simulating wall roughness element under the solution of realizable k-ε was acquired.
作者 金文 张鸿雁
出处 《农业机械学报》 EI CAS CSCD 北大核心 2010年第3期67-71,共5页 Transactions of the Chinese Society for Agricultural Machinery
基金 国家自然科学基金资助项目(10972176) 新疆维吾尔自治区科技攻关重点资助项目(200833121)
关键词 微通道 流场 数值模拟 粗糙度 多孔介质 微尺度粒子图像测速 Micro-channel Flow field Numerical simulating Roughness Porous medium Micro-PIV
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参考文献10

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