Abstract. The Boltzmann equation can be used to model flows in the transition or kinetic regime. However, standard moment methods like Grad’s approach lack hyperbolicity. Based on recent developments in this field, we have derived a quadrature-based moment method leading to globally hyperbolic and rotationally invariant moment equations. The method is presented as one example of a newly developed operator projection framework. We discuss a special case of the model equations and compare the new model to standard models by analyzing the structure of the equations
Abstract. We derive hyperbolic PDE systems for the solution of the Boltz-mann Equation. First, the v...
International audienceA solution is proposed to a longstanding open problem in kinetic theory, namel...
The Boltzmann equation, an integro-differential equation for the molecular distribution function in ...
Abstract. Kinetic equations like the Boltzmann equation are the basis for various applications invol...
Hyperbolic moment equations for the simulation of rarefied gas flows are derived and solved using ap...
Through a deep investigation on the structure of the coefficient matrix of the globally hyperbolic r...
ii We derive hyperbolic PDE systems for the solution of the Boltzmann equation. First, we transform ...
in a d-dimensional setting, i.e. position x ∈ Rd and velocity c ∈ Rd. Firstly, we apply nonlinear tr...
Kinetic theory is a useful theoretical framework for developing multiphase flow models that account ...
This paper extends the model reduction method by the operator projection to the one-dimensional spec...
This work applies the moment method onto a generic form of kinetic equations to simplify kinetic mod...
We develop the dimension-reduced hyperbolic moment method for the Boltzmann equation, to improve sol...
Kinetic equations occur in mesoscopic models for many physical phenomena. The direct solution of the...
International audienceThe conditional quadrature method of moments (CQMOM) was introduced by Yuan an...
International audienceWe study the weakly hyperbolic system of conservation laws which arises when w...
Abstract. We derive hyperbolic PDE systems for the solution of the Boltz-mann Equation. First, the v...
International audienceA solution is proposed to a longstanding open problem in kinetic theory, namel...
The Boltzmann equation, an integro-differential equation for the molecular distribution function in ...
Abstract. Kinetic equations like the Boltzmann equation are the basis for various applications invol...
Hyperbolic moment equations for the simulation of rarefied gas flows are derived and solved using ap...
Through a deep investigation on the structure of the coefficient matrix of the globally hyperbolic r...
ii We derive hyperbolic PDE systems for the solution of the Boltzmann equation. First, we transform ...
in a d-dimensional setting, i.e. position x ∈ Rd and velocity c ∈ Rd. Firstly, we apply nonlinear tr...
Kinetic theory is a useful theoretical framework for developing multiphase flow models that account ...
This paper extends the model reduction method by the operator projection to the one-dimensional spec...
This work applies the moment method onto a generic form of kinetic equations to simplify kinetic mod...
We develop the dimension-reduced hyperbolic moment method for the Boltzmann equation, to improve sol...
Kinetic equations occur in mesoscopic models for many physical phenomena. The direct solution of the...
International audienceThe conditional quadrature method of moments (CQMOM) was introduced by Yuan an...
International audienceWe study the weakly hyperbolic system of conservation laws which arises when w...
Abstract. We derive hyperbolic PDE systems for the solution of the Boltz-mann Equation. First, the v...
International audienceA solution is proposed to a longstanding open problem in kinetic theory, namel...
The Boltzmann equation, an integro-differential equation for the molecular distribution function in ...