Add to ORKGMotion and hydroelastic responses of floating offshore wind turbines (FOWT) to irregular waves and wind loads are studied by use of a numerical coupling approach in frequency domain. The hydrodynamic and aerodynamic loads on the structure are obtained by linear wave diffraction theory and the steady blade element momentum method, respectively, and the structural responses are computed by finite element method. Rigid body responses of a SPAR to combined irregular waves (JONSWAP spectrum)and steady wind are computed and compared with existing laboratory measurements. Good agreement between the computed responses of the structure and existing laboratory data is observed. Next, the rigid and hydroelastic responses of a new concept of FOWT, wher...
It is of research interest to establish a technique to capture the loads on the structural members o...
Modern offshore wind turbines are susceptible to blade deformation because of their increased size a...
Floating wind turbines are subjected to stochastic wind and wave loadings. Wind and wave loadings ar...
Motion and hydroelastic responses of floating offshore wind turbines (FOWT) to irregular waves and w...
This study is concerned with the motion analysis and structural responses of a multi-unit floating o...
A multi-unit floating offshore wind turbine concept, the wind-tracing floating offshore wind turbine...
This study is concerned with motion analysis and hydroelastic response of a floating offshore wind t...
This document is a deliverable of the FLOATECH project, funded under the European Union’s Horizon 20...
A floating offshore wind turbine (FOWT) is a coupled system where a wind turbine with flexible blade...
In this paper, we present numerical modelling for the investigation of dynamic responses of a floati...
A floating offshore wind turbine (FOWT) is a coupled system where a wind turbine with flexible blade...
Floating offshore wind technology is being developed rapidly with the aim of harvesting high-energy...
Reducing the levelised cost of energy is crucial to accelerating the energy transition. To develop o...
This thesis dene a limit for when hydroelasticity is necessary to include in an analysis of a large ...
It is of research interest to establish a technique to capture the loads on the structural members o...
Modern offshore wind turbines are susceptible to blade deformation because of their increased size a...
Floating wind turbines are subjected to stochastic wind and wave loadings. Wind and wave loadings ar...
Motion and hydroelastic responses of floating offshore wind turbines (FOWT) to irregular waves and w...
This study is concerned with the motion analysis and structural responses of a multi-unit floating o...
A multi-unit floating offshore wind turbine concept, the wind-tracing floating offshore wind turbine...
This study is concerned with motion analysis and hydroelastic response of a floating offshore wind t...
This document is a deliverable of the FLOATECH project, funded under the European Union’s Horizon 20...
A floating offshore wind turbine (FOWT) is a coupled system where a wind turbine with flexible blade...
In this paper, we present numerical modelling for the investigation of dynamic responses of a floati...
A floating offshore wind turbine (FOWT) is a coupled system where a wind turbine with flexible blade...
Floating offshore wind technology is being developed rapidly with the aim of harvesting high-energy...
Reducing the levelised cost of energy is crucial to accelerating the energy transition. To develop o...
This thesis dene a limit for when hydroelasticity is necessary to include in an analysis of a large ...
It is of research interest to establish a technique to capture the loads on the structural members o...
Modern offshore wind turbines are susceptible to blade deformation because of their increased size a...
Floating wind turbines are subjected to stochastic wind and wave loadings. Wind and wave loadings ar...