We develop the dimension-reduced hyperbolic moment method for the Boltzmann equation, to improve solution efficiency using a numerical regularized moment method for problems with low-dimensional macroscopic variables and highdimensional microscopic variables. In the present work, we deduce the globally hyperbolic moment equations for the dimension-reduced Boltzmann equation based on the Hermite expansion and a globally hyperbolic regularization. The numbers of Maxwell boundary condition required for well-posedness are studied. The numerical scheme is then developed and an improved projection algorithm between two different Hermite expansion spaces is developed. By solving several benchmark problems, we validate the method developed and demo...
This work applies the moment method onto a generic form of kinetic equations to simplify kinetic mod...
The Boltzmann equation is a complex integral-differential equation and the basis of the kinetic theo...
ii We derive hyperbolic PDE systems for the solution of the Boltzmann equation. First, we transform ...
We develop the dimension-reduced hyperbolic moment method for the Boltzmann equation, to improve sol...
We introduce a numerical method for solving Grad's moment equations or regularized moment equat...
This paper extends the model reduction method by the operator projection to the one-dimensional spec...
Abstract. Kinetic equations like the Boltzmann equation are the basis for various applications invol...
in a d-dimensional setting, i.e. position x ∈ Rd and velocity c ∈ Rd. Firstly, we apply nonlinear tr...
Hyperbolic moment equations for the simulation of rarefied gas flows are derived and solved using ap...
Grad's moment models for Boltzmann equation were recently regularized to globally hyperbolic sy...
Through a deep investigation on the structure of the coefficient matrix of the globally hyperbolic r...
Abstract. The Boltzmann equation can be used to model flows in the transition or kinetic regime. How...
This paper presents a numerical analysis for the time-implicit numerical approximation of the Boltzm...
In Cai and Li (SIAM J. Sci. Comput. 32(5):2875-2907, 2010), we proposed a numerical regularized mome...
This paper presents a numerical approximation technique for the Boltzmann equation based on a moment...
This work applies the moment method onto a generic form of kinetic equations to simplify kinetic mod...
The Boltzmann equation is a complex integral-differential equation and the basis of the kinetic theo...
ii We derive hyperbolic PDE systems for the solution of the Boltzmann equation. First, we transform ...
We develop the dimension-reduced hyperbolic moment method for the Boltzmann equation, to improve sol...
We introduce a numerical method for solving Grad's moment equations or regularized moment equat...
This paper extends the model reduction method by the operator projection to the one-dimensional spec...
Abstract. Kinetic equations like the Boltzmann equation are the basis for various applications invol...
in a d-dimensional setting, i.e. position x ∈ Rd and velocity c ∈ Rd. Firstly, we apply nonlinear tr...
Hyperbolic moment equations for the simulation of rarefied gas flows are derived and solved using ap...
Grad's moment models for Boltzmann equation were recently regularized to globally hyperbolic sy...
Through a deep investigation on the structure of the coefficient matrix of the globally hyperbolic r...
Abstract. The Boltzmann equation can be used to model flows in the transition or kinetic regime. How...
This paper presents a numerical analysis for the time-implicit numerical approximation of the Boltzm...
In Cai and Li (SIAM J. Sci. Comput. 32(5):2875-2907, 2010), we proposed a numerical regularized mome...
This paper presents a numerical approximation technique for the Boltzmann equation based on a moment...
This work applies the moment method onto a generic form of kinetic equations to simplify kinetic mod...
The Boltzmann equation is a complex integral-differential equation and the basis of the kinetic theo...
ii We derive hyperbolic PDE systems for the solution of the Boltzmann equation. First, we transform ...