The DSMC method is a successful and widely used tool for rarefied gas simulations while the gas kinetic unified algorithm is a developing method for flows from rarefied to continuum.It has been proved that when the number of particles turns to infinite,The DSMC method is a successful and widely used tool for rarefied gas simulations while the gas kinetic unified algorithm is a developing method for flows from rarefied to continuum.It has been proved that when the number of particles turns to infinite,The International Union of Theoretical and Applied Mechanics(IUTAM)、The Chinese Society of Theoretical and Applied Mechanics(CST
We present the formulation of a kinetic mapping scheme between the Direct Simulation Monte Carlo (DS...
Fluid dynamic equations are valid in their respective modeling scales, such as the particle mean fre...
One of the central problems in the study of rarefied gas dynamics is to find the steady-state soluti...
Alexander, Garcia and Alder [1] introduced the Consistent Boltzmann Algorithm (CBA) as a simple vari...
All fluid dynamic equations are valid in their modeling scales,such as the kinetic scale for the Bol...
We study properties of the consistent Boltzmann algorithm for dense gases, using its limiting kineti...
With discretized particle velocity space, a multiscale unified gas-kinetic scheme for entire Knudsen...
The direct simulation Monte-Carlo (DSMC) method has been developed to solve the Boltzmann equation f...
The Boltzmann equation, an integro-differential equation for the molecular distribution function in ...
AbstractThe Boltzmann simplified velocity distribution function equation, as adapted to various flow...
Recent progress in the development of the gas-kinetic scheme is reviewed in this article, with empha...
Recently, the DSBGK method (note: the original name DS-BGK is changed to DSBGK for simplicity) was p...
International audienceThis article proposes a statistical numerical method to address gas kinetics p...
Flows encountered in space applications, like atmospheric reentry or jet plume interactions, are cha...
Gas-kinetic theory is also valid in the continuum regime: the Euler and Navier-Stokes equations can ...
We present the formulation of a kinetic mapping scheme between the Direct Simulation Monte Carlo (DS...
Fluid dynamic equations are valid in their respective modeling scales, such as the particle mean fre...
One of the central problems in the study of rarefied gas dynamics is to find the steady-state soluti...
Alexander, Garcia and Alder [1] introduced the Consistent Boltzmann Algorithm (CBA) as a simple vari...
All fluid dynamic equations are valid in their modeling scales,such as the kinetic scale for the Bol...
We study properties of the consistent Boltzmann algorithm for dense gases, using its limiting kineti...
With discretized particle velocity space, a multiscale unified gas-kinetic scheme for entire Knudsen...
The direct simulation Monte-Carlo (DSMC) method has been developed to solve the Boltzmann equation f...
The Boltzmann equation, an integro-differential equation for the molecular distribution function in ...
AbstractThe Boltzmann simplified velocity distribution function equation, as adapted to various flow...
Recent progress in the development of the gas-kinetic scheme is reviewed in this article, with empha...
Recently, the DSBGK method (note: the original name DS-BGK is changed to DSBGK for simplicity) was p...
International audienceThis article proposes a statistical numerical method to address gas kinetics p...
Flows encountered in space applications, like atmospheric reentry or jet plume interactions, are cha...
Gas-kinetic theory is also valid in the continuum regime: the Euler and Navier-Stokes equations can ...
We present the formulation of a kinetic mapping scheme between the Direct Simulation Monte Carlo (DS...
Fluid dynamic equations are valid in their respective modeling scales, such as the particle mean fre...
One of the central problems in the study of rarefied gas dynamics is to find the steady-state soluti...