In the paper we extend the Multiple-Relaxation-Time (MRT) Lattice Boltzmann (LB) model pro- posed in [Europhys. Lctt., 2010, 90: 54003] so that it is suitable also for incompressible flows. To decrease tile artif...In the paper we extend the Multiple-Relaxation-Time (MRT) Lattice Boltzmann (LB) model pro- posed in [Europhys. Lctt., 2010, 90: 54003] so that it is suitable also for incompressible flows. To decrease tile artificial oscillations, the convection term is discretized by the flux linfiter scheme with splitting technique. A new model is validated by some well-known benchmark tests, including Rie- mann problem and Couette flow, and satisfying agreements are obtained between the sinmlation results and ana.lytical ones. In order to show the merit of LB model over traditional methods, the non-equilibrium characteristics of system are solved. The simulation results are consistent with the physical analysis.展开更多
基金The authors would like to sincerely thank S. Succi and C. Lin for many instructive discussions. We acknowl- edge support of National Natural Science Foundation of China (under Grant Nos. 11075021 and 11047020). A. G. Xu and G. C. Zhang acknowledge support of the Science Foundation of CAEP (Grant Nos. 2012B0101014 and 2011A0201002) and the Founda- tion of State Key Laboratory of Explosion Science and Technology (Grant No. KFJJ14-1M).
文摘In the paper we extend the Multiple-Relaxation-Time (MRT) Lattice Boltzmann (LB) model pro- posed in [Europhys. Lctt., 2010, 90: 54003] so that it is suitable also for incompressible flows. To decrease tile artificial oscillations, the convection term is discretized by the flux linfiter scheme with splitting technique. A new model is validated by some well-known benchmark tests, including Rie- mann problem and Couette flow, and satisfying agreements are obtained between the sinmlation results and ana.lytical ones. In order to show the merit of LB model over traditional methods, the non-equilibrium characteristics of system are solved. The simulation results are consistent with the physical analysis.
