Add to ORKGThis article deals with the calculations of the temperature jump at the wall for gas flows in the slip regime. The analytical calculations are based on kinetic boundary conditions developed especially for polyatomic molecules. When compared to an expression previously obtained for unstructured molecules, the polyatomic molecule temperature jump reveals supplementary terms of bulk viscosity type due to the internal mode excitation. These terms may be important in high speed flows or in gas flows displaying significant relative density variation at the wall
The interactive thermal wall model is applied in three-dimensional molecular dynamics simulations to...
The molecular dynamics (MD) technique simulates atomistic or molecular interactions and movements di...
A heat conduction problem is set up which, in essence, simulates the conditions arising when a plane...
This article deals with the calculations of the temperature jump at the wall for gas flows in the sli...
This article deals with the problem of temperature jump and slip velocity at the wall in gas/surface...
The interaction of a dilute monatomic gas with a solid surface is studied byMolecular Dynamics (MD) ...
Part of the Springer INdAM Series book series (SINDAMS, volume 48)A system of fluid-dynamic-type equ...
A polyatomic scattering kernel phenomenologically presented in a previous article is derived from an...
For understanding the behavior of a gas close to a channel wall it is important to model the gas-wal...
This work involves a molecular simulation study of the phenomena of wall slip occurring in rarefied ...
International audienceIn micro-channel gas flows, velocity slip and temperature jump must be applied...
The conductive heat transfer through rarefied polyatomic gases confined between parallel plates main...
This paper deals with the interface between a solid and an ideal gas. The surface of the solid is co...
In most applications concerning a fluid flowing past a solid surface, the no-slip conditions are usu...
Nonequilibrium molecular dynamics simulations is applied to investigate the simultaneous effect of r...
The interactive thermal wall model is applied in three-dimensional molecular dynamics simulations to...
The molecular dynamics (MD) technique simulates atomistic or molecular interactions and movements di...
A heat conduction problem is set up which, in essence, simulates the conditions arising when a plane...
This article deals with the calculations of the temperature jump at the wall for gas flows in the sli...
This article deals with the problem of temperature jump and slip velocity at the wall in gas/surface...
The interaction of a dilute monatomic gas with a solid surface is studied byMolecular Dynamics (MD) ...
Part of the Springer INdAM Series book series (SINDAMS, volume 48)A system of fluid-dynamic-type equ...
A polyatomic scattering kernel phenomenologically presented in a previous article is derived from an...
For understanding the behavior of a gas close to a channel wall it is important to model the gas-wal...
This work involves a molecular simulation study of the phenomena of wall slip occurring in rarefied ...
International audienceIn micro-channel gas flows, velocity slip and temperature jump must be applied...
The conductive heat transfer through rarefied polyatomic gases confined between parallel plates main...
This paper deals with the interface between a solid and an ideal gas. The surface of the solid is co...
In most applications concerning a fluid flowing past a solid surface, the no-slip conditions are usu...
Nonequilibrium molecular dynamics simulations is applied to investigate the simultaneous effect of r...
The interactive thermal wall model is applied in three-dimensional molecular dynamics simulations to...
The molecular dynamics (MD) technique simulates atomistic or molecular interactions and movements di...
A heat conduction problem is set up which, in essence, simulates the conditions arising when a plane...