International audienceA non hydrostatic vertical two-dimensional numerical model is proposed to calculate free-surface flows. This model is based on resolving the full Navier–Stokes equations by a finite-difference method coupled with Chorin's projection method. An adaptative-Eulerian grid in the sigma-coordinate system is used. The model permits the calculation of surface-waves in estuarine and coastal zones. A benchmark test relative to the soliton propagation is realised to validate the model.Un modèle numérique 2D vertical non hydrostatique calculant les écoulements à surface libre est présenté. Le modèle est basé sur la résolution des équations de Navier–Stokes par la méthode des différences finies couplée à la méthode de projection de...
In this paper we propose a stable and robust strategy to approximate the 3D incompressible hydrostat...
Dans cette thèse, nous nous intéressons à la résolution numérique des équations tridimensionnelles d...
Over the last decades, there has been considerable attention in the accurate mathematical modeling a...
A numerical non-hydrostatic 2DV free surface flow model has been developed. The equations are based ...
An algorithm for solution of three-dimensional Navier-Stokes equations for incompressible free surfa...
International audienceAn original implementation of a non-hydrostatic, free-surface algorithm based ...
International audienceWe study the Serre–Green-Naghdi system under a non-hydrostatic formulation, mo...
Steady free surface flow is often encountered in marine engineering, e.g. for calculating ship hull ...
For the estimation of wave loads on offshore structures, relevant extreme wave events need to be ide...
Steady free surface flow is often encountered in marine engineering, e.g. for calcula...
Hydrodynamic models based on the RANS equation are well-established tools to simulate three-dimensio...
In this work, a free surface flow simulator is developed in which Navier–Stokes equations using Mark...
A model is proposed to simulate the wave motion resulting from sudden water releases in an open chan...
Analytical-numerical equations capable of simulating three-dimensional hydrodynamic flows (x, y, z, ...
We study the Serre-Green-Naghdi system under a non-hydrostatic formulation, modelling incompressible...
In this paper we propose a stable and robust strategy to approximate the 3D incompressible hydrostat...
Dans cette thèse, nous nous intéressons à la résolution numérique des équations tridimensionnelles d...
Over the last decades, there has been considerable attention in the accurate mathematical modeling a...
A numerical non-hydrostatic 2DV free surface flow model has been developed. The equations are based ...
An algorithm for solution of three-dimensional Navier-Stokes equations for incompressible free surfa...
International audienceAn original implementation of a non-hydrostatic, free-surface algorithm based ...
International audienceWe study the Serre–Green-Naghdi system under a non-hydrostatic formulation, mo...
Steady free surface flow is often encountered in marine engineering, e.g. for calculating ship hull ...
For the estimation of wave loads on offshore structures, relevant extreme wave events need to be ide...
Steady free surface flow is often encountered in marine engineering, e.g. for calcula...
Hydrodynamic models based on the RANS equation are well-established tools to simulate three-dimensio...
In this work, a free surface flow simulator is developed in which Navier–Stokes equations using Mark...
A model is proposed to simulate the wave motion resulting from sudden water releases in an open chan...
Analytical-numerical equations capable of simulating three-dimensional hydrodynamic flows (x, y, z, ...
We study the Serre-Green-Naghdi system under a non-hydrostatic formulation, modelling incompressible...
In this paper we propose a stable and robust strategy to approximate the 3D incompressible hydrostat...
Dans cette thèse, nous nous intéressons à la résolution numérique des équations tridimensionnelles d...
Over the last decades, there has been considerable attention in the accurate mathematical modeling a...