A finite volume adaptive mesh redistribution method for efficient and accurate simulation of one and two dimensional compressible Euler equations is developed. The method consists of two coupled steps; evolution of the governing equations using an adaptively redistributed mesh followed by a redistribution of the computational nodes. Mesh redistribution is accomplished through the solution of an elliptic equation which allows for determination of redistributed coordinates corresponding to the physical domain on a simplified computational domain, discretized using a uniform Cartesian grid. The governing hyperbolic compressible Euler equations, originally defined in the physical domain, are first transformed on to the simplified computational ...
Accepted pre-print for SIAM Journal on Scientific ComputingInternational audienceWe present a detail...
The compressible Euler equations describe the motion of compressible inviscid fluids. They are used ...
We present an adaptive finite element method for the compressible Euler equations, based on a poster...
A finite volume adaptive mesh redistribution method for efficient and accurate simulation of one and...
The thesis deals with the construction of an adaptive 1D and 2D mesh in the framework of the cell- c...
A novel Finite Volume (FV) technique for solving the compressible unsteady Euler equations is presen...
A high-order adaptive finite-volume method is presented for simulating inviscid compressible flows o...
Abstract. In this work we demonstrate some recent progress on moving mesh methods with application t...
Abstract. An adaptive remeshing procedure based on a cell volume deformation method is presented. St...
A mesh adaptation technique implemented in an algorithm to simulate compressible flows characterized...
An upwinding flux difference splitting method has been used to solve the Euler equations for compre...
We develop efficient moving mesh algorithms for one- and two-dimensional hyperbolic systems of conse...
The simulation of time-dependent physical problems, such as flows of some kind, places high demands ...
It is well known that if the solution of flow equations has regions of high spatial activity, a stan...
. In this paper we shall present a numerical algorithm to solve the compressible Euler equations in ...
Accepted pre-print for SIAM Journal on Scientific ComputingInternational audienceWe present a detail...
The compressible Euler equations describe the motion of compressible inviscid fluids. They are used ...
We present an adaptive finite element method for the compressible Euler equations, based on a poster...
A finite volume adaptive mesh redistribution method for efficient and accurate simulation of one and...
The thesis deals with the construction of an adaptive 1D and 2D mesh in the framework of the cell- c...
A novel Finite Volume (FV) technique for solving the compressible unsteady Euler equations is presen...
A high-order adaptive finite-volume method is presented for simulating inviscid compressible flows o...
Abstract. In this work we demonstrate some recent progress on moving mesh methods with application t...
Abstract. An adaptive remeshing procedure based on a cell volume deformation method is presented. St...
A mesh adaptation technique implemented in an algorithm to simulate compressible flows characterized...
An upwinding flux difference splitting method has been used to solve the Euler equations for compre...
We develop efficient moving mesh algorithms for one- and two-dimensional hyperbolic systems of conse...
The simulation of time-dependent physical problems, such as flows of some kind, places high demands ...
It is well known that if the solution of flow equations has regions of high spatial activity, a stan...
. In this paper we shall present a numerical algorithm to solve the compressible Euler equations in ...
Accepted pre-print for SIAM Journal on Scientific ComputingInternational audienceWe present a detail...
The compressible Euler equations describe the motion of compressible inviscid fluids. They are used ...
We present an adaptive finite element method for the compressible Euler equations, based on a poster...