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Aeroelastic loads on a 10 MW turbine exposed to extreme events selected from a year-long large-eddy simulation over the North Sea

Gerard Schepers, Pim van Dorp, Remco Verzijlbergh, Peter Baas, Harmen J. J. Jonker

2021Wind energy science12 citationsDOIOpen Access PDF

Abstract

Abstract. In this article the aeroelastic loads on a 10 MW turbine in response to extreme events (low-level jet, shear, veer and turbulence intensity) selected from a year-long large-eddy simulation (LES) on a site at the North Sea are evaluated. These events are generated with a high-fidelity LES wind model and fed into an aeroelastic tool using two different aerodynamic models: a model based on blade element momentum (BEM) and a free vortex wake model. Then the aeroelastic loads are calculated and compared with the loads from the IEC standards. It was found that the loads from all these events remain within those of the IEC design loads. Moreover, the accuracy of BEM-based methods for modelling such wind conditions showed a considerable overprediction compared to the free vortex wake model for the events with extreme shear and/or veer.

Topics & Concepts

AeroelasticityWakeDetached eddy simulationLarge eddy simulationAerodynamicsTurbineVortexWind shearTurbulenceWake turbulenceTurbine bladeGeologyStructural engineeringEnvironmental scienceMechanicsMarine engineeringWind speedEngineeringMeteorologyAerospace engineeringPhysicsReynolds-averaged Navier–Stokes equationsWind Energy Research and DevelopmentWind and Air Flow StudiesFluid Dynamics and Vibration Analysis
Aeroelastic loads on a 10 MW turbine exposed to extreme events selected from a year-long large-eddy simulation over the North Sea | Litcius