Add to ORKGInternational audienceDirect numerical simulation of high-density ratio multiphase flows requires a lot of computational resources. We have developed a parallel algorithm for solving the incompressible Navier-Stokes equation in two-phase flows on an adap-tive hierarchy of mesh. The interface between the two fluids is treated by a coupled Level-Set/Ghost-Fluid method; the parallel AMR is handled by the PARAMESH package, which assures good scaling. A robust solver for the variable density pressure equation has been developed, including an AMR levels-based multigrid pre-conditioner. The code has been applied to the study of the oscillation of a two dimensional liquid sheet sheared by an air flow, and global oscillation frequencies have been co...
The paper presents a finite element code for compressible flow simulations. The code has two importa...
International audienceTo design many industrial systems, accurate and efficient simulations of compl...
Published under licence in Journal of Physics: Conference Series by IOP Publishing Ltd. Content fro...
A code based on finite element method was built and applied on the variable density incompressible...
International audienceA parallel CFD code is being modified to improve performance for multiphase fl...
In this work, a finite-volume Adaptive Mesh Refinement (AMR) method for two phase flows able to dyna...
Les équations de Navier-Stokes diphasiques interviennent dans plusieurs applications industrielles e...
We present an efficient numerical methodology for the 31) computation of incompressible multi-phase ...
This paper presents a comparative study of interface capturing methods with adaptive mesh refinemen...
This thesis addresses parallel algorithms for three-dimensional two-phase flow simulations on adapti...
The presented work is dedicated to the mathematical and numerical modeling of unsteady single-and tw...
In Sussman, Smereka and Osher, a numerical method using the level set approach was formulated for so...
A parallel finite element model for incompressible laminar two-phase flows is presented. A two-fluid...
We present a coupled moving mesh and level set method for computing incompressible two-phase flow wi...
Many physical problems involve spatial and temporal inhomogeneities that require a very fi...
The paper presents a finite element code for compressible flow simulations. The code has two importa...
International audienceTo design many industrial systems, accurate and efficient simulations of compl...
Published under licence in Journal of Physics: Conference Series by IOP Publishing Ltd. Content fro...
A code based on finite element method was built and applied on the variable density incompressible...
International audienceA parallel CFD code is being modified to improve performance for multiphase fl...
In this work, a finite-volume Adaptive Mesh Refinement (AMR) method for two phase flows able to dyna...
Les équations de Navier-Stokes diphasiques interviennent dans plusieurs applications industrielles e...
We present an efficient numerical methodology for the 31) computation of incompressible multi-phase ...
This paper presents a comparative study of interface capturing methods with adaptive mesh refinemen...
This thesis addresses parallel algorithms for three-dimensional two-phase flow simulations on adapti...
The presented work is dedicated to the mathematical and numerical modeling of unsteady single-and tw...
In Sussman, Smereka and Osher, a numerical method using the level set approach was formulated for so...
A parallel finite element model for incompressible laminar two-phase flows is presented. A two-fluid...
We present a coupled moving mesh and level set method for computing incompressible two-phase flow wi...
Many physical problems involve spatial and temporal inhomogeneities that require a very fi...
The paper presents a finite element code for compressible flow simulations. The code has two importa...
International audienceTo design many industrial systems, accurate and efficient simulations of compl...
Published under licence in Journal of Physics: Conference Series by IOP Publishing Ltd. Content fro...