Starting from a two-velocity version of a recently derived six-moment closure of the kinetic Boltzmann description of a polyatomic gas, based on a discrete structure of internal energy levels, the classical shock wave problem is analyzed in some detail. Explicit analytical results are achieved under a simplifying assumption equivalent to the standard approximation of polytropic gases, to which this paper is generally restricted. In particular, existence of smooth solutions, occurrence of jumps in the kinetic and excitation temperatures, and possible temperature overshooting are emphasized
Abstract. The shock wave structure in nitrogen is studied by solving the Boltzmann kinetic equation ...
A heat conduction problem is set up which, in essence, simulates the conditions arising when a plane...
A kinetic model of the Boltzmann equation for non-vibrating polyatomic gases is proposed, based on t...
A polyatomic gas with slow relaxation of the internal modes is considered, and the Navier-Stokes equ...
Polyatomic gases may be characterized by internal molecular degrees of freedom. As a consequence, at...
Treating polyatomic gases in kinetic gas theory requires an appropriate molecule model taking into a...
The structure of a shock wave in a rarefied polyatomic gas is studied on the basis of the theory of ...
A theory of the shock wave structure in a rarefied polyatomic gas is developed on the basis of the r...
A system of Navier–Stokes-type equations with two temperatures is derived, for a polyatomic gas with...
The structure of a plane shock wave is studied by an extension to the gas dynamics of the two-fluid ...
The paper is a review of shock wave propagation problems for inert and chemically reacting gases in ...
In this paper, we propose a numerical regularized moment method to solve the Boltzmann equation with...
International audienceWe propose a kinetic model describing a polyatomic gas undergoing resonant col...
A multi-temperature formal hydrodynamic limit of kinetic equations, based on Grad-type approximation...
Accurately computing the inner structure of normal shock waves or oblique shock waves is crucial for...
Abstract. The shock wave structure in nitrogen is studied by solving the Boltzmann kinetic equation ...
A heat conduction problem is set up which, in essence, simulates the conditions arising when a plane...
A kinetic model of the Boltzmann equation for non-vibrating polyatomic gases is proposed, based on t...
A polyatomic gas with slow relaxation of the internal modes is considered, and the Navier-Stokes equ...
Polyatomic gases may be characterized by internal molecular degrees of freedom. As a consequence, at...
Treating polyatomic gases in kinetic gas theory requires an appropriate molecule model taking into a...
The structure of a shock wave in a rarefied polyatomic gas is studied on the basis of the theory of ...
A theory of the shock wave structure in a rarefied polyatomic gas is developed on the basis of the r...
A system of Navier–Stokes-type equations with two temperatures is derived, for a polyatomic gas with...
The structure of a plane shock wave is studied by an extension to the gas dynamics of the two-fluid ...
The paper is a review of shock wave propagation problems for inert and chemically reacting gases in ...
In this paper, we propose a numerical regularized moment method to solve the Boltzmann equation with...
International audienceWe propose a kinetic model describing a polyatomic gas undergoing resonant col...
A multi-temperature formal hydrodynamic limit of kinetic equations, based on Grad-type approximation...
Accurately computing the inner structure of normal shock waves or oblique shock waves is crucial for...
Abstract. The shock wave structure in nitrogen is studied by solving the Boltzmann kinetic equation ...
A heat conduction problem is set up which, in essence, simulates the conditions arising when a plane...
A kinetic model of the Boltzmann equation for non-vibrating polyatomic gases is proposed, based on t...