In the multi-block computation of the Navier - Stokes equations, the interface treatment is a key issue. In the present work, we investigate this issue in the context of a pressure-based method using a non-orthogonal grid. For the momentum equations, a straightforward bilinear interpolation seems satisfactory as the interface treatment; on the other hand, because the pressure field depends on the satisfaction of the mass continuity equation, a conservative interface treatment has been found necessary for the pressure-correction equation. Two alternative interface treatments for the pressure-correction equation, one employing the Neumann boundary condition in both grid blocks, based on explicit local, cell-by-cell mass flux conservation, and...
Abstract. Textbook multigrid efficiencies for high Reynolds number simulations based on the incom-pr...
International audienceEmbedded boundary methods for CFD (Computational Fluid Dynamics) simplify a nu...
This thesis concerns numerical techniques for two phase flowsimulations; the two phases are immiscib...
A pressure-based multi-block computational method is developed for solving the incompressible Navier...
A pressure-based multiblock computational method is developed for solving the incompressible Navier-...
We report on measures to improve the robustness and performance of a three-dimensional pressure-base...
AbstractA conservative interface treatment for multi-block computation on structured quadrilateral g...
This paper is concerned with simulation of flows with interface between two incompressible and immis...
This paper is concerned with simulation of flows with interface between two incompressible and immis...
With the rise of computational power and the democratized access to supercomputers, numerical simula...
Single fluid schemes that rely on an interface function for phase identification in multicomponent c...
The present papers deal with numerical methods toward the accurate and efficient computations of mul...
Two-phase and multi-phase flows are common flow types in fluid mechanics engineering. Among the basi...
A general two-phase solver is developed to solve Navier-Stokes equation for low Mach number incompre...
The presented work is dedicated to the mathematical and numerical modeling of unsteady single-and tw...
Abstract. Textbook multigrid efficiencies for high Reynolds number simulations based on the incom-pr...
International audienceEmbedded boundary methods for CFD (Computational Fluid Dynamics) simplify a nu...
This thesis concerns numerical techniques for two phase flowsimulations; the two phases are immiscib...
A pressure-based multi-block computational method is developed for solving the incompressible Navier...
A pressure-based multiblock computational method is developed for solving the incompressible Navier-...
We report on measures to improve the robustness and performance of a three-dimensional pressure-base...
AbstractA conservative interface treatment for multi-block computation on structured quadrilateral g...
This paper is concerned with simulation of flows with interface between two incompressible and immis...
This paper is concerned with simulation of flows with interface between two incompressible and immis...
With the rise of computational power and the democratized access to supercomputers, numerical simula...
Single fluid schemes that rely on an interface function for phase identification in multicomponent c...
The present papers deal with numerical methods toward the accurate and efficient computations of mul...
Two-phase and multi-phase flows are common flow types in fluid mechanics engineering. Among the basi...
A general two-phase solver is developed to solve Navier-Stokes equation for low Mach number incompre...
The presented work is dedicated to the mathematical and numerical modeling of unsteady single-and tw...
Abstract. Textbook multigrid efficiencies for high Reynolds number simulations based on the incom-pr...
International audienceEmbedded boundary methods for CFD (Computational Fluid Dynamics) simplify a nu...
This thesis concerns numerical techniques for two phase flowsimulations; the two phases are immiscib...