Small Correlation Time Colored Noise Method for Two-phase Turbulent Flows and Simulation of Wall-jet-flow

CHINESE JOURNAL OF COMPUTATIONAL PHYSICS ›› 2007, Vol. 24 ›› Issue (4): 413-418.

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Small Correlation Time Colored Noise Method for Two-phase Turbulent Flows and Simulation of Wall-jet-flow

LI Zhaoxiang¹, XU Jiangrong², YANG Zhonghua¹

1. Mathematics and Science College, Shanghai Normal University, Shanghai 200234, China;
2. The School of Science, Hangzhou Dianzi University, Hangzhou 310018, China

Received:2006-06-26 Revised:2006-12-20 Online:2007-07-25 Published:2007-07-25

Abstract

Abstract: Based on a colored noise model with general Gaussian process,by functional derivation and small correlation time expansion,high-dimensional colored noises are calculated approximately and an effective Fokker-Planck equation(FPE) is derived.The effective FPE is applied to obtain probability density function transport equations of particles in two-phase flows and a second order moment model of two-phase flows.It is simplified into an algebra stress model(ASM).The finite analytic numerical method used in convective diffusion equation is applied to the second-order moment model.A wall-jet-flow loaded with solid particles is calculated with ASM and finite analytic numerical method.Numerical results are compared with experimental results.

Key words: functional derivation, two-phase turbulence flow, second order moment model, numerical simulation

CLC Number:

TK121

LI Zhaoxiang, XU Jiangrong, YANG Zhonghua. Small Correlation Time Colored Noise Method for Two-phase Turbulent Flows and Simulation of Wall-jet-flow[J]. CHINESE JOURNAL OF COMPUTATIONAL PHYSICS, 2007, 24(4): 413-418.

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Small Correlation Time Colored Noise Method for Two-phase Turbulent Flows and Simulation of Wall-jet-flow

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