This work is aimed at investigating the aero-elastic behavior of a wind turbine blade subjected to strong wind speeds during standstill. This type of investigation still remains a challenge for most wind turbine simulation codes. For this purpose, a new developed high fidelity framework for fluid-structure coupled computations of wind turbines is presented and numerical simulations are conducted on the NREL 5MW reference wind turbine. The framework couples the open-source Computational Fluid Dynamics (CFD) toolbox OpenFOAM with an in-house beam solver, based on the Geometrically Exact Beam Theory (GEBT). The obtained results are compared to the aero-elastic tool FAST, which is based on the Blade Element Momentum theory (BEM) and can be cons...
The accuracy of simulating the aerodynamics and structural properties of the blades is crucial in th...
The current wind turbine design tools are based on aerodynamic simulations using blade element momen...
Countries around the world are putting substantial effort into the development of wind energy techno...
This paper presents a fluid-structure coupled simulation tool for high-fidelity simulations of wind ...
Typically the aero-elastic simulation tools that are used in industry employ simple beam models to r...
The current trends of wind turbine blade designs are geared towards a longer and slender blade with ...
The interaction of fluid flow and the structure dynamic of the system is a vital subject for machine...
To increase the attractiveness of wind energy, wind turbines are continuously scaling up, with diame...
In this paper, a numerical model for fluid-structure interaction (FSI) analysis is developed for inv...
A fluid-structure coupling method is developed for calculation of unsteady forces applied to the bla...
Modern offshore wind turbines are susceptible to blade deformation because of their increased size a...
Fluid-structure interaction simulations are routinely used in the wind energy industry to evaluate t...
The current paper investigates the aeroelastic modelling of large, flexible multi- MW wind turbine b...
The relevant size of state-of-the-art wind turbines suggests a significant Fluid-Structure Interacti...
This paper presents aeroelastic analyses of wind turbines, using the compressible flow Helicopter Mu...
The accuracy of simulating the aerodynamics and structural properties of the blades is crucial in th...
The current wind turbine design tools are based on aerodynamic simulations using blade element momen...
Countries around the world are putting substantial effort into the development of wind energy techno...
This paper presents a fluid-structure coupled simulation tool for high-fidelity simulations of wind ...
Typically the aero-elastic simulation tools that are used in industry employ simple beam models to r...
The current trends of wind turbine blade designs are geared towards a longer and slender blade with ...
The interaction of fluid flow and the structure dynamic of the system is a vital subject for machine...
To increase the attractiveness of wind energy, wind turbines are continuously scaling up, with diame...
In this paper, a numerical model for fluid-structure interaction (FSI) analysis is developed for inv...
A fluid-structure coupling method is developed for calculation of unsteady forces applied to the bla...
Modern offshore wind turbines are susceptible to blade deformation because of their increased size a...
Fluid-structure interaction simulations are routinely used in the wind energy industry to evaluate t...
The current paper investigates the aeroelastic modelling of large, flexible multi- MW wind turbine b...
The relevant size of state-of-the-art wind turbines suggests a significant Fluid-Structure Interacti...
This paper presents aeroelastic analyses of wind turbines, using the compressible flow Helicopter Mu...
The accuracy of simulating the aerodynamics and structural properties of the blades is crucial in th...
The current wind turbine design tools are based on aerodynamic simulations using blade element momen...
Countries around the world are putting substantial effort into the development of wind energy techno...