Implementation of the blade element momentum model on a polar grid and its aeroelastic load impact
We show that the upscaling of wind turbines from rotor diameters of 15–20 m to presently
large rotors of 150–200 m has changed the requirements for the aerodynamic blade …
large rotors of 150–200 m has changed the requirements for the aerodynamic blade …
[HTML][HTML] Dynamic inflow model for a floating horizontal axis wind turbine in surge motion
C Ferreira, W Yu, A Sala, A Viré - Wind Energy Science, 2022 - wes.copernicus.org
Floating offshore wind turbines may experience large surge motions, which can cause blade–
vortex interaction if they are similar to or faster than the local wind speed. Previous research …
vortex interaction if they are similar to or faster than the local wind speed. Previous research …
Dynamic inflow effects in measurements and high-fidelity computations
GR Pirrung, HA Madsen - Wind Energy Science, 2018 - wes.copernicus.org
A wind turbine experiences an overshoot in loading after, for example, a collective step
change in pitch angle. This overshoot occurs because the wind turbine wake does not …
change in pitch angle. This overshoot occurs because the wind turbine wake does not …
Applicability of Dynamic Inflow Models of HAWT in Yawed Flow Conditions
C Hur, C Ferreira, G Schepers - Energies, 2022 - mdpi.com
Horizontal axis wind turbines (HAWTs) experience yaw misalignments due to the physical
limitations of yaw controllers and various novel active yaw controls. Moreover, the motion of …
limitations of yaw controllers and various novel active yaw controls. Moreover, the motion of …
[PDF][PDF] Corrigendum to “Implementation of the blade element momentum model on a polar grid and its aeroelastic load impact” published in Wind Energ. Sci., 5, 1–27 …
We show that the upscaling of wind turbines from rotor diameters of 15–20 m to presently
large rotors of 150–200 m has changed the requirements for the aerodynamic blade …
large rotors of 150–200 m has changed the requirements for the aerodynamic blade …