A system of Navier–Stokes-type equations with two temperatures is derived, for a polyatomic gas with temperature-dependent specific heats (thermally perfect gas), from the ellipsoidal statistical (ES) model of the Boltzmann equation extended to such a gas. Subsequently, the system is applied to the problem of shock-wave structure for a gas with large bulk viscosity (or, equivalently, with slow relaxation of the internal modes), and the numerical results are compared with those based on the ordinary Navier–Stokes equations. It is shown that the latter equations fail to describe the double-layer structure of shock profiles for a gas with large bulk viscosity
The structure of strong shock waves in monatomic gases is studied using the Fokker-Planck model to r...
The structure of strong shock waves in monatomic gases is studied using the Fokker-Planck model to r...
The structure of a plane shock wave is discussed and the expected range of applicability of the Navi...
A polyatomic gas with slow relaxation of the internal modes is considered, and the Navier-Stokes equ...
A theory of the shock wave structure in a rarefied polyatomic gas is developed on the basis of the r...
We present an equation for the heat-flux vector that goes beyond Fourier's Law of heat conduction, i...
Bulk viscosity and acoustic wave propagation in polyatomic gases and their mixtures are studied in t...
The paper discusses the shock structure in macroscopic multi-temperature model of gaseous mixtures, ...
The structure of a plane shock wave is studied by an extension to the gas dynamics of the two-fluid ...
This work presents the structure of viscous shock front in a non-ideal gas. The analytical expressio...
The structure of a shock wave in a rarefied polyatomic gas is studied on the basis of the theory of ...
Starting from a two-velocity version of a recently derived six-moment closure of the kinetic Boltzma...
In this paper the problem of shock structure in binary gas mixture is studied with assumption that ...
We model strong shock-wave propagation, both in the ideal gas and in the dense Lennard-Jones fluid, ...
The collision integral approximation by different model equations has created a whole new trend in t...
The structure of strong shock waves in monatomic gases is studied using the Fokker-Planck model to r...
The structure of strong shock waves in monatomic gases is studied using the Fokker-Planck model to r...
The structure of a plane shock wave is discussed and the expected range of applicability of the Navi...
A polyatomic gas with slow relaxation of the internal modes is considered, and the Navier-Stokes equ...
A theory of the shock wave structure in a rarefied polyatomic gas is developed on the basis of the r...
We present an equation for the heat-flux vector that goes beyond Fourier's Law of heat conduction, i...
Bulk viscosity and acoustic wave propagation in polyatomic gases and their mixtures are studied in t...
The paper discusses the shock structure in macroscopic multi-temperature model of gaseous mixtures, ...
The structure of a plane shock wave is studied by an extension to the gas dynamics of the two-fluid ...
This work presents the structure of viscous shock front in a non-ideal gas. The analytical expressio...
The structure of a shock wave in a rarefied polyatomic gas is studied on the basis of the theory of ...
Starting from a two-velocity version of a recently derived six-moment closure of the kinetic Boltzma...
In this paper the problem of shock structure in binary gas mixture is studied with assumption that ...
We model strong shock-wave propagation, both in the ideal gas and in the dense Lennard-Jones fluid, ...
The collision integral approximation by different model equations has created a whole new trend in t...
The structure of strong shock waves in monatomic gases is studied using the Fokker-Planck model to r...
The structure of strong shock waves in monatomic gases is studied using the Fokker-Planck model to r...
The structure of a plane shock wave is discussed and the expected range of applicability of the Navi...