The constant up-scaling of wind turbines encourages researchers to develop innovative aeroelastic models for the study of Fluid-Structure Interaction in wind energy. In this paper, we present a novel two-way coupling method joining a Large-Eddy Simulation fluid solver and a modal beam-like structural solver. The model takes advantage of the Actuator Line Model representing the rotor in the fluid domain, and exploits the superior accuracy of the high-fidelity Computational Fluid Dynamics solver to describe the complex aerodynamics of wind turbines. The comparison for a benchmark turbine between the cases with and without aeroelastic feedback showed how significantly the coupling procedure affects the structural dynamics, especially when the ...
In this work, we present an aeroelastic model intended for three-blade large-scale horizontal-axis w...
This paper presents a fluid-structure coupled simulation tool for high-fidelity simulations of wind ...
Parallel Computation of wind farm Large Eddy Simulations (LES) requires the use of with Wind Turbine...
The relevant size of state-of-the-art wind turbines suggests a significant Fluid-Structure Interacti...
To increase the attractiveness of wind energy, wind turbines are continuously scaling up, with diame...
The interaction of fluid flow and the structure dynamic of the system is a vital subject for machine...
We present a large eddy simulation framework capable of control co design of large wind turbines, co...
The development of new wind farm control strategies can benefit from combined analysis of flow dynam...
The current trends of wind turbine blade designs are geared towards a longer and slender blade with ...
International audienceLarge Eddy Simulation (LES) is growing in importance to support the developmen...
The current trend of wind turbine upscaling has led to the use of long and slender blades prone to l...
With the increase in size of wind turbine for larger energy capture, aeroelastic effects previously ...
A fluid-structure coupling method is developed for calculation of unsteady forces applied to the bla...
In large wind farms, the turbulence induced by each turbine results in high overall turbulence level...
AbstractParallel Computation of wind farm Large Eddy Simulations (LES) requires the use of with Wind...
In this work, we present an aeroelastic model intended for three-blade large-scale horizontal-axis w...
This paper presents a fluid-structure coupled simulation tool for high-fidelity simulations of wind ...
Parallel Computation of wind farm Large Eddy Simulations (LES) requires the use of with Wind Turbine...
The relevant size of state-of-the-art wind turbines suggests a significant Fluid-Structure Interacti...
To increase the attractiveness of wind energy, wind turbines are continuously scaling up, with diame...
The interaction of fluid flow and the structure dynamic of the system is a vital subject for machine...
We present a large eddy simulation framework capable of control co design of large wind turbines, co...
The development of new wind farm control strategies can benefit from combined analysis of flow dynam...
The current trends of wind turbine blade designs are geared towards a longer and slender blade with ...
International audienceLarge Eddy Simulation (LES) is growing in importance to support the developmen...
The current trend of wind turbine upscaling has led to the use of long and slender blades prone to l...
With the increase in size of wind turbine for larger energy capture, aeroelastic effects previously ...
A fluid-structure coupling method is developed for calculation of unsteady forces applied to the bla...
In large wind farms, the turbulence induced by each turbine results in high overall turbulence level...
AbstractParallel Computation of wind farm Large Eddy Simulations (LES) requires the use of with Wind...
In this work, we present an aeroelastic model intended for three-blade large-scale horizontal-axis w...
This paper presents a fluid-structure coupled simulation tool for high-fidelity simulations of wind ...
Parallel Computation of wind farm Large Eddy Simulations (LES) requires the use of with Wind Turbine...