Boltzmann collision operator for polyatomic gases in agreement with experimental data and DSMC method

被引：9

作者：

Djordjic, Vladimir ^{[1
]}

Oblapenko, Georgii ^{[2
]}

Pavic-Colic, Milana ^{[3
]}

Torrilhon, Manuel ^{[1
]}

机构：

[1] Rhein Westfal TH Aachen, Appl & Computat Math, Schinkelstr 2, D-52062 Aachen, Germany

[2] German Aerosp Ctr DLR, Bunsenstr 10, D-37073 Gottingen, Germany

[3] Univ Novi Sad, Fac Sci, Dept Math & Informat, Trg Dositeja Obradovica 4, Novi Sad 21000, Serbia

来源：

CONTINUUM MECHANICS AND THERMODYNAMICS | 2023年 / 35卷 / 01期

关键词：

Cross sections; Prandtl number; Bulk viscosity; Transport coefficients; Polytropic gas; Larsen-Borgnakke; MAXIMUM-ENTROPY PRINCIPLE; KINETIC-MODEL; SIMULATION; PRESSURE;

D O I：

10.1007/s00161-022-01167-8

中图分类号：

O414.1 [热力学];

学科分类号：

摘要：

This paper is concerned with the Boltzmann equation based on a continuous internal energy variable to model polyatomic gases with constant specific heats. We propose a family of models for the collision kernel and evaluate the nonlinear Boltzmann collision operator to get explicit expressions for transport coefficients like shear and bulk viscosities, thermal conductivity, depending on the collision kernel parameters. This model is shown to contain as a special case the collision kernel used in the direct simulation Monte Carlo method with the variable hard sphere cross section. Then, we show that it is possible to choose parameters in such a way that we recover various physical phenomena, in particular, experimental data for the shear viscosity, Prandtl number and the ratio of bulk and shear viscosities at the same time.

引用

页码：103 / 119

页数：17

共 46 条

[1] Boltzmann collision operator for polyatomic gases in agreement with experimental data and DSMC method
Vladimir Djordjić
Georgii Oblapenko
Milana Pavić-Čolić
Manuel Torrilhon
Continuum Mechanics and Thermodynamics, 2023, 35 : 103 - 119
[2] Conservative and entropy schemes for Boltzmann collision operator of polyatomic gases
Buet, C
MATHEMATICAL MODELS & METHODS IN APPLIED SCIENCES, 1997, 7 (02): : 165 - 192
[3] Consistent, explicit, and accessible Boltzmann collision operator for polyatomic gases
Djordjic, Vladimir
Pavic-Colic, Milana
Torrilhon, Manuel
PHYSICAL REVIEW E, 2021, 104 (02)
[4] Compactness Property of the Linearized Boltzmann Operator for a Mixture of Polyatomic Gases
Brull, Stephane
Shahine, Marwa
Thieullen, Philippe
HYPERBOLIC PROBLEMS: THEORY, NUMERICS, APPLICATIONS, VOL I, HYP2022, 2024, 34 : 169 - 179
[5] Compactness property of the linearized Boltzmann collision operator for a multicomponent polyatomic gas
Bernhoff, Niclas
JOURNAL OF MATHEMATICAL ANALYSIS AND APPLICATIONS, 2024, 537 (01)
[6] Method for Solving the Boltzmann Kinetic Equation for Polyatomic Gases
Tcheremissine, F. G.
COMPUTATIONAL MATHEMATICS AND MATHEMATICAL PHYSICS, 2012, 52 (02) : 252 - 268
[7] Method for solving the Boltzmann kinetic equation for polyatomic gases
F. G. Tcheremissine
Computational Mathematics and Mathematical Physics, 2012, 52 : 252 - 268
[8] A fast spectral method for the inelastic Boltzmann collision operator and application to heated granular gases
Hu, Jingwei
Ma, Zheng
JOURNAL OF COMPUTATIONAL PHYSICS, 2019, 385 : 119 - 134
[9] EIGENVALUES OF THE BOLTZMANN COLLISION OPERATOR FOR BINARY GASES - MASS DEPENDENCE
SHIZGAL, B
LINDENFELD, MJ
REEVES, R
CHEMICAL PHYSICS, 1981, 56 (02) : 249 - 260
[10] Compactness Property of the Linearized Boltzmann Collision Operator for a Mixture of Monatomic and Polyatomic Species
Bernhoff, Niclas
JOURNAL OF STATISTICAL PHYSICS, 2024, 191 (03)

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