颗粒团绕流曳力系数的LBM计算被引量：7

Evaluation of drag coefficient on particles in cluster by using lattice Boltzmann method

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摘要 The LBGK(lattice Bhatnagar-Gross-Krook)model of the lattice Boltzmann method including second-order boundary condition treatment for curve geometry was employed to investigate the flow around particle clusters.The drag coefficient is a benchmark problem in the analysis of particle-fluid complex systems,especially,in a gas-solid fluidized bed.In the present work,the drag coefficient on a spherical particle in a cluster,was evaluated by using the momentum-exchange method directly.Two different configurations of cluster were measured based on the lattice Boltzmann method.Computational results indicated that the drag coefficient on an individual particle in a cluster depended heavily on the configuration of cluster.And the drag coefficient on the particle in the cluster was lower when that particle was shielded by other particles.Additionally,except for the configuration factor,both the inter-distance and Reynolds number had a strong effect on the drag coefficient on an individual particle as well.It was found that the drag coefficient on each particle varied drastically with clustering.Omitting the effect of clustering might result in incorrect drag forces in the simulation. The LBGK （lattice Bhatnagar-Gross-Krook） model of the lattice Boltzmann method including second-order boundary condition treatment for curve geometry was employed to investigate the flow around particle clusters. The drag coefficient is a benchmark problem in the analysis of particle-fluid complex systems, especially, in a gas-solid fluidized bed. In the present work, the drag coefficient on a spherical particle in a cluster, was evaluated by using the momentum-exchange method directly. Two different configurations of cluster were measured based on the lattice Boltzmann method. Computational results indicated that the drag coefficient on an individual particle in a cluster depended heavily on the configuration of cluster. And the drag coefficient on the particle in the cluster was lower when that particle was shielded by other particles. Additionally, except for the configuration factor, both the inter-distance and Reynolds number had a strong effect on the drag coefficient on an individual particle as well. It was found that the drag coefficient on each particle varied drastically with clustering. Omitting the effect of clustering might result in incorrect drag forces in the simulation.

作者万韶六欧阳洁

机构地区西北工业大学应用数学系

出处《化工学报》 EI CAS CSCD 北大核心 2008年第1期58-63,共6页 CIESC Journal

基金国家自然科学基金重大项目(10590353) 陕西省自然科学基金项目(2005A16)~~

关键词格子BOLTZMANN方法动量交换法曳力系数颗粒团两相流 lattice Boltzmann method momentum-exchange method drag coefficient particle clusters two-phase flow

分类号 TQ015.9 [化学工程] TQ051.1 [化学工程]

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参考文献2

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共引文献11

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颗粒团绕流曳力系数的LBM计算被引量：7

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颗粒团绕流曳力系数的LBM计算 被引量：7

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颗粒团绕流曳力系数的LBM计算被引量：7