Add to ORKGA novel genuinely multi-dimensional relaxation scheme is proposed. Based on a new discrete velocity Boltzmann equation, which is an improvement over previously introduced relaxation systems in terms of isotropic coverage of the multi-dimensional domain by the foot of the characteristic, a finite volume method is developed in which the fluxes at the cell interfaces are evaluated in a genuinely multi-dimensional way, in contrast to the traditional dimension-by-dimension treatment. This algorithm is tested on some bench-mark test problems for hyperbolic conservation laws
Hyperbolic systems of conservation laws often have diffusive relaxation terms that lead to a small r...
Hyperbolic systems of conservation laws often have diffusive relaxation terms that lead to a small-r...
Hyperbolic systems of conservation laws often have diffusive relaxation terms that lead to a small r...
A novel genuinely multi-dimensional relaxation scheme is proposed. Based on a new discrete velocity ...
A novel genuinely multi-dimensional relaxation scheme is proposed. Based on a new discrete velocity ...
A new genuinely multi-dimensional relaxation scheme is proposed. Based on a new discrete velocity Bo...
A new genuinely multi-dimensional relaxation scheme is proposed. Based on a new discrete velocity Bo...
We present a general, high-order, fully explicit, relaxation scheme for systems of nonlinear hyperbo...
We present a general, high-order, fully explicit relaxation scheme which can be applied to any syste...
International audienceWe present a general, high-order, fully explicit relaxation scheme which can b...
International audienceWe present a general, high-order, fully explicit relaxation scheme which can b...
International audienceWe present a general, high-order, fully explicit relaxation scheme which can b...
Many kinetic models of the Boltzmann equation have a diffusive scaling that leads to the Navier-Stok...
A new algorithm for the numerical solution of stiff hyperbolic relaxation systems is presented. It i...
Many kinetic models of the Boltzmann equation have a diffusive scaling that leads to the Navier--Sto...
Hyperbolic systems of conservation laws often have diffusive relaxation terms that lead to a small r...
Hyperbolic systems of conservation laws often have diffusive relaxation terms that lead to a small-r...
Hyperbolic systems of conservation laws often have diffusive relaxation terms that lead to a small r...
A novel genuinely multi-dimensional relaxation scheme is proposed. Based on a new discrete velocity ...
A novel genuinely multi-dimensional relaxation scheme is proposed. Based on a new discrete velocity ...
A new genuinely multi-dimensional relaxation scheme is proposed. Based on a new discrete velocity Bo...
A new genuinely multi-dimensional relaxation scheme is proposed. Based on a new discrete velocity Bo...
We present a general, high-order, fully explicit, relaxation scheme for systems of nonlinear hyperbo...
We present a general, high-order, fully explicit relaxation scheme which can be applied to any syste...
International audienceWe present a general, high-order, fully explicit relaxation scheme which can b...
International audienceWe present a general, high-order, fully explicit relaxation scheme which can b...
International audienceWe present a general, high-order, fully explicit relaxation scheme which can b...
Many kinetic models of the Boltzmann equation have a diffusive scaling that leads to the Navier-Stok...
A new algorithm for the numerical solution of stiff hyperbolic relaxation systems is presented. It i...
Many kinetic models of the Boltzmann equation have a diffusive scaling that leads to the Navier--Sto...
Hyperbolic systems of conservation laws often have diffusive relaxation terms that lead to a small r...
Hyperbolic systems of conservation laws often have diffusive relaxation terms that lead to a small-r...
Hyperbolic systems of conservation laws often have diffusive relaxation terms that lead to a small r...