Add to ORKGThis report summarises the results of numerical simulation on the experiment of the floating wind turbine in dynamic rigid body model, using OpenFOAM software. A full domain simulation of the floating structure is modelled by OpenFOAM in dynamic rigid body model with 6 degree of freedom that includes Surge, Sway, Heave, Pitch, Roll and Yaw, and also with hydrodynamic solver modelled by Navier-stokes equation. In this numerical simulation, ihFOAM and interDyMFoam are used as solvers. InterDyMFoam is an enhanced version of interFoam which deals with dynamic meshes and uses the same governing equations to solve fluid motion. ihFOAM is an additional solver based on interFoam which has built in boundary conditions for wave generation and wave ab...
An accurate prediction of aerodynamic and hydrodynamic loads on an offshore floating wind turbine pl...
The research presented in this paper aims at improving hydrodynamics modelling for floating offshore...
International audienceDepending on the environmental conditions, floating Horizontal Axis Wind Turbi...
Floating offshore wind turbines (FOWTs) have the potential to harness wind resources in deepwater, w...
This research is focused on the study and analysis of dynamics of floating bodies. The research is c...
The objective of the present work is to investigate the hydrodynamic loads of a fixed cylinder subje...
Modelling of floating structures is a challenging task for offshore and coastal engineering purposes...
The present thesis considers numerical computations of fully nonlinear fluid-structure interaction. ...
This document is a deliverable of the FLOATECH project, funded under the European Union’s Horizon 20...
In this paper we use the CFD toolbox OpenFOAM to perform numerical simulations of multiple floating ...
Floating wind turbines (FWTs) are proposed as a method to harness the significant wind energy resour...
The vast deepwater wind resource represents a potential to use offshore floating wind turbines to po...
In this Master Thesis, an overview of the performance and applicability of IHFoam numerical tool to ...
A coupled aerodynamic-hydrodynamic-servo simulation software capable of motion and performance predi...
In assessment of the response of floating wind turbines under extreme wave conditions, structure sta...
An accurate prediction of aerodynamic and hydrodynamic loads on an offshore floating wind turbine pl...
The research presented in this paper aims at improving hydrodynamics modelling for floating offshore...
International audienceDepending on the environmental conditions, floating Horizontal Axis Wind Turbi...
Floating offshore wind turbines (FOWTs) have the potential to harness wind resources in deepwater, w...
This research is focused on the study and analysis of dynamics of floating bodies. The research is c...
The objective of the present work is to investigate the hydrodynamic loads of a fixed cylinder subje...
Modelling of floating structures is a challenging task for offshore and coastal engineering purposes...
The present thesis considers numerical computations of fully nonlinear fluid-structure interaction. ...
This document is a deliverable of the FLOATECH project, funded under the European Union’s Horizon 20...
In this paper we use the CFD toolbox OpenFOAM to perform numerical simulations of multiple floating ...
Floating wind turbines (FWTs) are proposed as a method to harness the significant wind energy resour...
The vast deepwater wind resource represents a potential to use offshore floating wind turbines to po...
In this Master Thesis, an overview of the performance and applicability of IHFoam numerical tool to ...
A coupled aerodynamic-hydrodynamic-servo simulation software capable of motion and performance predi...
In assessment of the response of floating wind turbines under extreme wave conditions, structure sta...
An accurate prediction of aerodynamic and hydrodynamic loads on an offshore floating wind turbine pl...
The research presented in this paper aims at improving hydrodynamics modelling for floating offshore...
International audienceDepending on the environmental conditions, floating Horizontal Axis Wind Turbi...