Numerical comparison between the Boltzmann and ES-BGK models for rarefied gases

Pierre Andries; Jean François Bourgat; Patrick Le Tallec; Benoit Perthame

doi:10.1016/S0045-7825(02)00253-0

Numerical comparison between the Boltzmann and ES-BGK models for rarefied gases

Pierre Andries
, Jean François Bourgat
, Patrick Le Tallec
, Benoit Perthame

INRIA Institut National de Recherche en Informatique et en Automatique
Université Paris Dauphine
PSL research University & IPSL

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

Abstract

Rarefied gas flows obey the Boltzmann equation, but numerical simulations of this equation are not always possible, so that simpler models have been introduced. The ES-BGK equation is one of these models. It gives the correct transport coefficients for the Navier-Stokes approximation, so that Boltzmann or ES-BGK simulations are expected to give the same results for dense gases, but in the case of a rarefied flow, complete numerical comparisons are needed. In this paper we present numerical comparisons between the two models in transitional regimes (where the ES-BGK model is expected to be useful) for reentry flows around a compression ramp and a plate. We also emphasize that the ES-BGK model gives flow predictions closer to the Boltzmann result than the simpler BGK model.

Original language	English
Pages (from-to)	3369-3390
Number of pages	22
Journal	Computer Methods in Applied Mechanics and Engineering
Volume	191
Issue number	31
DOIs	https://doi.org/10.1016/S0045-7825(02)00253-0
Publication status	Published - 24 May 2002
Externally published	Yes

Keywords

BGK equations
Kinetic theory
Monte-Carlo simulation
Random particle models

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10.1016/S0045-7825(02)00253-0

Cite this

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title = "Numerical comparison between the Boltzmann and ES-BGK models for rarefied gases",

abstract = "Rarefied gas flows obey the Boltzmann equation, but numerical simulations of this equation are not always possible, so that simpler models have been introduced. The ES-BGK equation is one of these models. It gives the correct transport coefficients for the Navier-Stokes approximation, so that Boltzmann or ES-BGK simulations are expected to give the same results for dense gases, but in the case of a rarefied flow, complete numerical comparisons are needed. In this paper we present numerical comparisons between the two models in transitional regimes (where the ES-BGK model is expected to be useful) for reentry flows around a compression ramp and a plate. We also emphasize that the ES-BGK model gives flow predictions closer to the Boltzmann result than the simpler BGK model.",

keywords = "BGK equations, Kinetic theory, Monte-Carlo simulation, Random particle models",

author = "Pierre Andries and Bourgat, \{Jean Fran{\c c}ois\} and \{Le Tallec\}, Patrick and Benoit Perthame",

year = "2002",

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doi = "10.1016/S0045-7825(02)00253-0",

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T1 - Numerical comparison between the Boltzmann and ES-BGK models for rarefied gases

AU - Andries, Pierre

AU - Bourgat, Jean François

AU - Le Tallec, Patrick

AU - Perthame, Benoit

PY - 2002/5/24

Y1 - 2002/5/24

N2 - Rarefied gas flows obey the Boltzmann equation, but numerical simulations of this equation are not always possible, so that simpler models have been introduced. The ES-BGK equation is one of these models. It gives the correct transport coefficients for the Navier-Stokes approximation, so that Boltzmann or ES-BGK simulations are expected to give the same results for dense gases, but in the case of a rarefied flow, complete numerical comparisons are needed. In this paper we present numerical comparisons between the two models in transitional regimes (where the ES-BGK model is expected to be useful) for reentry flows around a compression ramp and a plate. We also emphasize that the ES-BGK model gives flow predictions closer to the Boltzmann result than the simpler BGK model.

AB - Rarefied gas flows obey the Boltzmann equation, but numerical simulations of this equation are not always possible, so that simpler models have been introduced. The ES-BGK equation is one of these models. It gives the correct transport coefficients for the Navier-Stokes approximation, so that Boltzmann or ES-BGK simulations are expected to give the same results for dense gases, but in the case of a rarefied flow, complete numerical comparisons are needed. In this paper we present numerical comparisons between the two models in transitional regimes (where the ES-BGK model is expected to be useful) for reentry flows around a compression ramp and a plate. We also emphasize that the ES-BGK model gives flow predictions closer to the Boltzmann result than the simpler BGK model.

KW - BGK equations

KW - Kinetic theory

KW - Monte-Carlo simulation

KW - Random particle models

U2 - 10.1016/S0045-7825(02)00253-0

DO - 10.1016/S0045-7825(02)00253-0

M3 - Article

AN - SCOPUS:0037166225

SN - 0045-7825

VL - 191

SP - 3369

EP - 3390

JO - Computer Methods in Applied Mechanics and Engineering

JF - Computer Methods in Applied Mechanics and Engineering

IS - 31

ER -

Numerical comparison between the Boltzmann and ES-BGK models for rarefied gases

Abstract

Keywords

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