Deep water focused breaking wave loads on a fixed cylinder

MB Martin, JC Harris, JF Filipot, F Hulin, A Tassin… - Coastal …, 2023 - Elsevier
This paper presents new results regarding numerical simulations of breaking wave impacts
on a surface-piercing cylinder. The computational fluid dynamics solver, code_saturne …

An Overview of Coupled Lagrangian–Eulerian Methods for Ocean Engineering

Z Qian, T Yang, M Liu - Journal of Marine Science and Application, 2024 - Springer
Combining the strengths of Lagrangian and Eulerian descriptions, the coupled Lagrangian–
Eulerian methods play an increasingly important role in various subjects. This work reviews …

[HTML][HTML] Wave–structure interaction by a two–way coupling between a fully nonlinear potential flow model and a Navier–Stokes solver

P Landesman, JC Harris, C Peyrard, M Benoit - Ocean Engineering, 2024 - Elsevier
A two-way domain decomposition coupling procedure between a fully nonlinear potential
flow model and a Navier–Stokes solver capturing the free surface with a Volume of Fluid …

Numerical investigation of slamming loads on floating offshore wind turbines

MB Martin, JC Harris, P Renaud, F Hulin… - … International Ocean and …, 2022 - onepetro.org
This paper presents the results of ongoing work regarding numerical simulations of breaking
wave impacts on a surface-piercing cylinder. The computational fluid dynamics solver …

A time‐staggered second order conservative time scheme for variable density flow

H Amino, C Flageul, S Benhamadouche… - … Methods in Fluids, 2022 - Wiley Online Library
In this study, we present a robust conservative time‐staggered scheme for variable density
flow. This pressure correction scheme uses the compressible Navier–Stokes equations and …

[HTML][HTML] A stable free-surface boundary solution method for fully nonlinear potential flow models

R Rai, Z Ma, Z Lin, W Bai, L Qian - Applied Ocean Research, 2023 - Elsevier
This paper presents a stable method for solving the kinematic boundary condition equation
(KBC) in fully nonlinear potential flow (FNPF) models. The method is motivated by a total …

Evaluating and Optimising the Overset Solver in OpenFOAM for Complex Wave-Structure Interaction Problems

RS Rai, L Qian, Z Ma, W Bai - International …, 2024 - asmedigitalcollection.asme.org
In this paper, the latest overset mesh solver, updated in ESI-OpenCFD OpenFOAM v2212, is
evaluated for two complex wave-structure interaction problems; namely, fifth-order Stokes …

[PDF][PDF] Simulation of wave-structure interaction by a two-way coupling between a fully nonlinear potential flow model and a Navier-Stokes solver

P Landesman - Ecole des Ponts ParisTech, Marne-la-Vallée …, 2022 - pastel.hal.science
This thesis deals with the development and application of a two-way coupling procedure
between a fully nonlinear potential flow model and a Navier-Stokes solver to study …

A new integrated finite volume–finite volume hydrodynamic modelling framework for wave-structure interactions

RS Rai - 2024 - e-space.mmu.ac.uk
This thesis presents a new integrated hydrodynamic modelling framework for and long-time
and large-scale wave-structure interaction problems. It is developed by coupling a finite …

Granular Flow–Obstacle Interaction and Granular Dam Break Using the SH Model with the TVD-MacCormack Scheme

H Zhou, M Wang, S Li, Z Cao, A Peng, G Huang… - Applied Sciences, 2022 - mdpi.com
An accurate second-order spatial and temporal finite-difference scheme is applied to solve
the dynamics model of a depth-averaged avalanche. Within the framework of the …