A multiple-relaxation-time lattice Boltzmann method for high-speed compressible flows

Kai Li; Cheng Wen Zhong

doi:10.1088/1674-1056/24/5/050501

A multiple-relaxation-time lattice Boltzmann method for high-speed compressible flows

Kai Li, Cheng Wen Zhong

School of Aeronautics

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

This paper presents a coupling compressible model of the lattice Boltzmann method. In this model, the multiple-relaxation-time lattice Boltzmann scheme is used for the evolution of density distribution functions, whereas the modified single-relaxation-time (SRT) lattice Boltzmann scheme is applied for the evolution of potential energy distribution functions. The governing equations are discretized with the third-order Monotone Upwind Schemes for scalar conservation laws finite volume scheme. The choice of relaxation coefficients is discussed simply. Through the numerical simulations, it is found that compressible flows with strong shocks can be well simulated by present model. The numerical results agree well with the reference results and are better than that of the SRT version.

Original language	English
Article number	050501
Pages (from-to)	50501
Number of pages	1
Journal	Chinese Physics B
Volume	24
Issue number	5
DOIs	https://doi.org/10.1088/1674-1056/24/5/050501
State	Published - 1 May 2015

Keywords

Compressible flow
Finite volume method
Lattice Boltzmann method
Multi-relaxation-time

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10.1088/1674-1056/24/5/050501

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abstract = "This paper presents a coupling compressible model of the lattice Boltzmann method. In this model, the multiple-relaxation-time lattice Boltzmann scheme is used for the evolution of density distribution functions, whereas the modified single-relaxation-time (SRT) lattice Boltzmann scheme is applied for the evolution of potential energy distribution functions. The governing equations are discretized with the third-order Monotone Upwind Schemes for scalar conservation laws finite volume scheme. The choice of relaxation coefficients is discussed simply. Through the numerical simulations, it is found that compressible flows with strong shocks can be well simulated by present model. The numerical results agree well with the reference results and are better than that of the SRT version.",

keywords = "Compressible flow, Finite volume method, Lattice Boltzmann method, Multi-relaxation-time",

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T1 - A multiple-relaxation-time lattice Boltzmann method for high-speed compressible flows

AU - Li, Kai

AU - Zhong, Cheng Wen

PY - 2015/5/1

Y1 - 2015/5/1

N2 - This paper presents a coupling compressible model of the lattice Boltzmann method. In this model, the multiple-relaxation-time lattice Boltzmann scheme is used for the evolution of density distribution functions, whereas the modified single-relaxation-time (SRT) lattice Boltzmann scheme is applied for the evolution of potential energy distribution functions. The governing equations are discretized with the third-order Monotone Upwind Schemes for scalar conservation laws finite volume scheme. The choice of relaxation coefficients is discussed simply. Through the numerical simulations, it is found that compressible flows with strong shocks can be well simulated by present model. The numerical results agree well with the reference results and are better than that of the SRT version.

AB - This paper presents a coupling compressible model of the lattice Boltzmann method. In this model, the multiple-relaxation-time lattice Boltzmann scheme is used for the evolution of density distribution functions, whereas the modified single-relaxation-time (SRT) lattice Boltzmann scheme is applied for the evolution of potential energy distribution functions. The governing equations are discretized with the third-order Monotone Upwind Schemes for scalar conservation laws finite volume scheme. The choice of relaxation coefficients is discussed simply. Through the numerical simulations, it is found that compressible flows with strong shocks can be well simulated by present model. The numerical results agree well with the reference results and are better than that of the SRT version.

KW - Compressible flow

KW - Finite volume method

KW - Lattice Boltzmann method

KW - Multi-relaxation-time

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SP - 50501

JO - Chinese Physics B

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A multiple-relaxation-time lattice Boltzmann method for high-speed compressible flows

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