Treating polyatomic gases in kinetic gas theory requires an appropriate molecule model taking into account the additional internal structure of the gas particles. In this paper we describe two such models, each arising from quite different approaches to this problem. A simulation scheme for solving the corresponding kinetic equations is presented and some numerical results to 1D shockwaves are compared
Two-phase flows are one of the major topics in fluid dynamics, especially since the performance of c...
The steady one-dimensional flow of a monatomic vapor condensing onto a planar surface kept at consta...
We consider a multi component gas mixture with translational and internal energy degrees of freedom ...
Starting from a two-velocity version of a recently derived six-moment closure of the kinetic Boltzma...
International audienceWe propose a kinetic model describing a polyatomic gas undergoing resonant col...
In recent years the kinetic Fokker-Planck approach for modeling gas flows has become increasingly po...
A kinetic model for a gas mixture consisting of three species of structureless particles and one spe...
A kinetic model of the Boltzmann equation for non-vibrating polyatomic gases is proposed, based on t...
Polyatomic gases may be characterized by internal molecular degrees of freedom. As a consequence, at...
We give a comparison of various differential cross-section models for a classical polyatomic gas for...
The general method of constructing models for dynamics of the molecular gases at taking real propert...
A polyatomic gas with slow relaxation of the internal modes is considered, and the Navier-Stokes equ...
The interaction of a dilute monatomic gas with a solid surface is studied by Molecular Dynamics (MD)...
The interaction of a dilute monatomic gas with a solid surface is studied by Molecular Dynamics (MD)...
The interaction of a dilute monatomic gas with a solid surface is studied byMolecular Dynamics (MD) ...
Two-phase flows are one of the major topics in fluid dynamics, especially since the performance of c...
The steady one-dimensional flow of a monatomic vapor condensing onto a planar surface kept at consta...
We consider a multi component gas mixture with translational and internal energy degrees of freedom ...
Starting from a two-velocity version of a recently derived six-moment closure of the kinetic Boltzma...
International audienceWe propose a kinetic model describing a polyatomic gas undergoing resonant col...
In recent years the kinetic Fokker-Planck approach for modeling gas flows has become increasingly po...
A kinetic model for a gas mixture consisting of three species of structureless particles and one spe...
A kinetic model of the Boltzmann equation for non-vibrating polyatomic gases is proposed, based on t...
Polyatomic gases may be characterized by internal molecular degrees of freedom. As a consequence, at...
We give a comparison of various differential cross-section models for a classical polyatomic gas for...
The general method of constructing models for dynamics of the molecular gases at taking real propert...
A polyatomic gas with slow relaxation of the internal modes is considered, and the Navier-Stokes equ...
The interaction of a dilute monatomic gas with a solid surface is studied by Molecular Dynamics (MD)...
The interaction of a dilute monatomic gas with a solid surface is studied by Molecular Dynamics (MD)...
The interaction of a dilute monatomic gas with a solid surface is studied byMolecular Dynamics (MD) ...
Two-phase flows are one of the major topics in fluid dynamics, especially since the performance of c...
The steady one-dimensional flow of a monatomic vapor condensing onto a planar surface kept at consta...
We consider a multi component gas mixture with translational and internal energy degrees of freedom ...