In this paper, a hexahedral-mesh based solution adaptive algorithm for the simulation of compressible multi-fluid flows is proposed. The data structure, the refinement and coarsening process, and the solution adaptive method are described. The cells with different levels are stored in different lists. This avoids the recursive calculation of solution of mother (non-leaf) cells. Besides, the faces are separated stored into two lists: one for leaf faces and another for non-leaf faces. Thus, high efficiency is obtained due to these features. Numerical results show that there is no oscillation of pressure and velocity across the interface and it is feasible to apply it to solve compressible multi-fluid flows with large density ratio (1000) and ...
The monograph presents recent developments on the solution of high speed compressible flow problems ...
Adaptive mesh refinement procedures with finite elements have been used for some time in computing c...
We propose an unstructured mesh adaptation approach for unsteady high speed compressible Navier–Stok...
An adaptive ghost fluid finite volume method is developed for one- and two-dimensional compressible ...
International audienceA novel adaptive mesh refinement method is proposed. The novelty of the method...
In this paper, the interaction of shock waves with multi-fluids interfaces is investigated by numeri...
We present a numerical method for solving the multifluid equations of gas dynamics using an operator...
A method for simulating two-dimensional, high-Reynolds-number, compressible flows about complex geom...
The present papers deal with numerical methods toward the accurate and efficient computations of mul...
48th AIAA Aerospace Sciences Meeting Including the New Horizons Forum and Aerospace Exposition
An upwind cell-centered finite element formulation is combined with an adaptive meshing technique fo...
This paper describes adaptive grid methods developed specifically for compressible flow computations...
An adaptive Algebraic Multiscale Solver for Compressible (C-AMS) flow in heterogeneous oil reservoir...
The solution of complex three-dimensional computational fluid dynamics (CFD) problems in general nec...
We present a detailed comparison between two adaptive numerical approaches to solve partial differen...
The monograph presents recent developments on the solution of high speed compressible flow problems ...
Adaptive mesh refinement procedures with finite elements have been used for some time in computing c...
We propose an unstructured mesh adaptation approach for unsteady high speed compressible Navier–Stok...
An adaptive ghost fluid finite volume method is developed for one- and two-dimensional compressible ...
International audienceA novel adaptive mesh refinement method is proposed. The novelty of the method...
In this paper, the interaction of shock waves with multi-fluids interfaces is investigated by numeri...
We present a numerical method for solving the multifluid equations of gas dynamics using an operator...
A method for simulating two-dimensional, high-Reynolds-number, compressible flows about complex geom...
The present papers deal with numerical methods toward the accurate and efficient computations of mul...
48th AIAA Aerospace Sciences Meeting Including the New Horizons Forum and Aerospace Exposition
An upwind cell-centered finite element formulation is combined with an adaptive meshing technique fo...
This paper describes adaptive grid methods developed specifically for compressible flow computations...
An adaptive Algebraic Multiscale Solver for Compressible (C-AMS) flow in heterogeneous oil reservoir...
The solution of complex three-dimensional computational fluid dynamics (CFD) problems in general nec...
We present a detailed comparison between two adaptive numerical approaches to solve partial differen...
The monograph presents recent developments on the solution of high speed compressible flow problems ...
Adaptive mesh refinement procedures with finite elements have been used for some time in computing c...
We propose an unstructured mesh adaptation approach for unsteady high speed compressible Navier–Stok...