Large wind turbine edge instability field validation

Authors :: Volk, Dillon M.
Kallesøe, Bjarne S.
Johnson, Scott
Pirrung, Georg R.
Riva, Riccardo
Barnaud, Félix
Volk, Dillon M.
Kallesøe, Bjarne S.
Johnson, Scott
Pirrung, Georg R.
Riva, Riccardo
Barnaud, Félix
Source :: Volk , D M , Kallesøe , B S , Johnson , S , Pirrung , G R , Riva , R & Barnaud , F 2020 , ' Large wind turbine edge instability field validation ' , Journal of Physics: Conference Series , vol. 1618 , no. 5 , 052014 .
Publication Year :: 2020
Abstract: Wind turbines can exhibit flutter-like edgewise instabilities past a critical rotor speed. These edgewise instabilities are dominated by an edge-torsion coupling due to flapwise blade deflection. This paper experimentally validates the predicted stability limit of a 7 MW machine. State of the art simulation software is used to compare against recorded test data and characterize the observed flutter mechanism. The critical rotor speed at which the edgewise instabilities occur at in field measurements can be predicted by time domain simulations and stability analysis with very good agreement.

Database :: OAIster
Journal :: Volk , D M , Kallesøe , B S , Johnson , S , Pirrung , G R , Riva , R & Barnaud , F 2020 , ' Large wind turbine edge instability field validation ' , Journal of Physics: Conference Series , vol. 1618 , no. 5 , 052014 .
Notes :: application/pdf, English
Publication Type :: Electronic Resource
Accession number :: edsoai.on1233158425
Document Type :: Electronic Resource