DIFFERENCE SCHEME FOR TWO-PHASE FLOW

Applied Mathematics and Mechanics (English Edition) ›› 2004, Vol. 25 ›› Issue (5): 536-545.

DIFFERENCE SCHEME FOR TWO-PHASE FLOW

李强¹, 封建湖², 蔡体敏¹, 胡春波¹

1. Box 164, Northwestern Polytechnical University, Xi’an 710072, P.R.China;
2. College of Science, Changan University, Xi’an 710064, P.R.China

收稿日期:2002-05-17 修回日期:2003-12-03 出版日期:2004-05-18 发布日期:2004-05-18
通讯作者: LI Jia-chun
基金资助:
the Aerospace Science Foundation of China(03c53021)

DIFFERENCE SCHEME FOR TWO-PHASE FLOW

LI Qiang¹, FENG Jian-hu², CAI Ti-min¹, HU Chun-bo ¹

1. Box 164, Northwestern Polytechnical University, Xi’an 710072, P.R.China;
2. College of Science, Changan University, Xi’an 710064, P.R.China

Received:2002-05-17 Revised:2003-12-03 Online:2004-05-18 Published:2004-05-18
Supported by:
the Aerospace Science Foundation of China(03c53021)

摘要/Abstract

摘要： A numerical method for two-phase flow with hydrodynamics behavior was considered. The nonconservative hyperbolic governing equations proposed by Saurel and Gallout were adopted. Dissipative effects were neglected but they could be included in the model without major difficulties. Based on the opinion proposed by Abgrall that “a two phase system, uniform in velocity and pressure at t=0 will be uniform on the same variable during its temporal evolution", a simple accurate and fully Eulerian numerical method was presented for the simulation of multiphase compressible flows in hydrodynamic regime. The numerical method relies on Godunov-type scheme, with HLLC and Lax-Friedrichs type approximate Riemann solvers for the resolution of conservation equations, and nonconservative equation. Speed relaxation and pressure relaxation processes were introduced to account for the interaction between the phases. Test problem was presented in one space dimension which illustrated that our scheme is accurate, stable and oscillation free.

Abstract: A numerical method for two-phase flow with hydrodynamics behavior was considered. The nonconservative hyperbolic governing equations proposed by Saurel and Gallout were adopted. Dissipative effects were neglected but they could be included in the model without major difficulties. Based on the opinion proposed by Abgrall that “a two phase system, uniform in velocity and pressure at t=0 will be uniform on the same variable during its temporal evolution", a simple accurate and fully Eulerian numerical method was presented for the simulation of multiphase compressible flows in hydrodynamic regime. The numerical method relies on Godunov-type scheme, with HLLC and Lax-Friedrichs type approximate Riemann solvers for the resolution of conservation equations, and nonconservative equation. Speed relaxation and pressure relaxation processes were introduced to account for the interaction between the phases. Test problem was presented in one space dimension which illustrated that our scheme is accurate, stable and oscillation free.

中图分类号:

O359

李强;封建湖;蔡体敏;胡春波. DIFFERENCE SCHEME FOR TWO-PHASE FLOW[J]. Applied Mathematics and Mechanics (English Edition), 2004, 25(5): 536-545.

LI Qiang;FENG Jian-hu;CAI Ti-min;HU Chun-bo . DIFFERENCE SCHEME FOR TWO-PHASE FLOW[J]. Applied Mathematics and Mechanics (English Edition), 2004, 25(5): 536-545.

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DIFFERENCE SCHEME FOR TWO-PHASE FLOW

DIFFERENCE SCHEME FOR TWO-PHASE FLOW

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