To simulate the interaction of ocean waves with marine structures, coupling approaches between a potential flow model and a viscous model are investigated. The first model is a fully nonlinear potential flow (FNPF) model based on the Harmonic Polynomial Cell (HPC) method, which is highly accurate and best suited for representing long distance wave propagation. The second model is a CFD code, solving the Reynolds-Averaged Navier-Stokes (RANS) equations within the \openfoam toolkit, more suited to represent viscous and turbulent effects at local scale in the body vicinity. Two one-way coupling strategies are developed and compared in two dimensions, considering fully submerged and fixed structures. A domain decomposition (DD) strategy is fi...
An accurate representation of a given sea state is crucial for the study of hydrodynamic loads on of...
A new Fully Nonlinear Potential Flow (FNPF) numerical model has been developed for the simulation of...
A new Fully Nonlinear Potential Flow (FNPF) numerical model has been developed for the simulation of...
International audienceTo simulate the interaction of ocean waves with marine structures, coupling ap...
Cette thèse est consacrée à la modélisation mathématique et à la simulation numérique des vagues et ...
This paper presents a CFD decomposition model for free surface, viscous, in- compressible flows r...
This thesis is devoted to the mathematical modeling and numerical simulation of water waves and thei...
International audienceA fully nonlinear potential Numerical Wave Tank (NWT) is developed in two dime...
International audienceTo model the propagation of large water waves and associated loads applied to ...
Offshore structures located in harsh environments may experience large wave loads and wave-induced r...
This paper presents a new integrated (hybrid) hydrodynamic numerical model which couples a finite vo...
We demonstrate the accuracy and convergence of a new numerical model solving wave-structure interact...
This paper presents a two dimensional two-way coupled model combining Smoothed Particle Hydrodynamic...
Modern seakeeping computations are carried out using a variety of techniques ranging from two-dimens...
This chapter discusses the importance of efficient wave propagation models for generating boundary c...
An accurate representation of a given sea state is crucial for the study of hydrodynamic loads on of...
A new Fully Nonlinear Potential Flow (FNPF) numerical model has been developed for the simulation of...
A new Fully Nonlinear Potential Flow (FNPF) numerical model has been developed for the simulation of...
International audienceTo simulate the interaction of ocean waves with marine structures, coupling ap...
Cette thèse est consacrée à la modélisation mathématique et à la simulation numérique des vagues et ...
This paper presents a CFD decomposition model for free surface, viscous, in- compressible flows r...
This thesis is devoted to the mathematical modeling and numerical simulation of water waves and thei...
International audienceA fully nonlinear potential Numerical Wave Tank (NWT) is developed in two dime...
International audienceTo model the propagation of large water waves and associated loads applied to ...
Offshore structures located in harsh environments may experience large wave loads and wave-induced r...
This paper presents a new integrated (hybrid) hydrodynamic numerical model which couples a finite vo...
We demonstrate the accuracy and convergence of a new numerical model solving wave-structure interact...
This paper presents a two dimensional two-way coupled model combining Smoothed Particle Hydrodynamic...
Modern seakeeping computations are carried out using a variety of techniques ranging from two-dimens...
This chapter discusses the importance of efficient wave propagation models for generating boundary c...
An accurate representation of a given sea state is crucial for the study of hydrodynamic loads on of...
A new Fully Nonlinear Potential Flow (FNPF) numerical model has been developed for the simulation of...
A new Fully Nonlinear Potential Flow (FNPF) numerical model has been developed for the simulation of...