There are two main requirements for practical simulation of unsteady flow at high Reynolds number: the algorithm must accurately propagate discontinuous flow fields without excessive artificial viscosity, and it must have some adaptive capability to concentrate computational effort where it is most needed. We satisfy the first of these requirements with a second-order Godunov method similar to those used for high-speed flows with shocks, and the second with a grid-based refinement scheme which avoids some of the drawbacks associated with unstructured meshes. These two features of our algorithm place certain constraints on the projection method used to enforce incompressibility. Velocities are cell-based, leading to a Laplacian stencil for t...
International audienceIn the present investigation, a space adaptive multiresolution method is devel...
6 pagesIn this paper we present an extension of the spectral multilevel method developed by F. Bouch...
A number of advances in modeling multiphase incompressible flow are described. These advances includ...
Pressure projection is the single most computationally expensive step in an unsteady incompressible ...
In this paper we present a method for solving the equations governing time-dependent, variable densi...
8 pagesInternational audienceWe present a new {\em fast vector penalty-projection method (VPP$_{\eps...
We present a method for computing incompressible viscousflows in three dimensions using block-struct...
Simulations of incompressible flows are performed on a daily basis to solve problems of practical an...
AbstractWe present a new fast vector penalty-projection method (V PPε) to efficiently compute the so...
A methodology for accurate and efficient simulation of unsteady, compressible flows is presented. Th...
International audienceIn this article, we propose to study two issues associated with the use of the...
A method for simulating two-dimensional, high-Reynolds-number, compressible flows about complex geom...
We present an overview of the most common numerical solution strategies for the incompressible Navie...
Variable density incompressible flows are governed by parabolic equations. The artificial compressib...
The issue of local scale and smoothness presents a crucial and daunting challenge for numerical simu...
International audienceIn the present investigation, a space adaptive multiresolution method is devel...
6 pagesIn this paper we present an extension of the spectral multilevel method developed by F. Bouch...
A number of advances in modeling multiphase incompressible flow are described. These advances includ...
Pressure projection is the single most computationally expensive step in an unsteady incompressible ...
In this paper we present a method for solving the equations governing time-dependent, variable densi...
8 pagesInternational audienceWe present a new {\em fast vector penalty-projection method (VPP$_{\eps...
We present a method for computing incompressible viscousflows in three dimensions using block-struct...
Simulations of incompressible flows are performed on a daily basis to solve problems of practical an...
AbstractWe present a new fast vector penalty-projection method (V PPε) to efficiently compute the so...
A methodology for accurate and efficient simulation of unsteady, compressible flows is presented. Th...
International audienceIn this article, we propose to study two issues associated with the use of the...
A method for simulating two-dimensional, high-Reynolds-number, compressible flows about complex geom...
We present an overview of the most common numerical solution strategies for the incompressible Navie...
Variable density incompressible flows are governed by parabolic equations. The artificial compressib...
The issue of local scale and smoothness presents a crucial and daunting challenge for numerical simu...
International audienceIn the present investigation, a space adaptive multiresolution method is devel...
6 pagesIn this paper we present an extension of the spectral multilevel method developed by F. Bouch...
A number of advances in modeling multiphase incompressible flow are described. These advances includ...