Articles | Volume 2, issue 2
https://doi.org/10.5194/wes-2-415-2017
https://doi.org/10.5194/wes-2-415-2017
Research article
 | 
04 Aug 2017
Research article |  | 04 Aug 2017

Aeroelastic stability of idling wind turbines

Kai Wang, Vasilis A. Riziotis, and Spyros G. Voutsinas

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Cited articles

Bak, C., Fuglsang, P., Johansen, J., and Antoniou, I.: Wind Tunnel Tests of the NACA 63-415 and a Modified NACA 63-415 Airfoil, Risø-R-1193(EN), Risø National Laboratory, Roskilde, Denmark, 2000.
Bak, C., Zahle, F., Bitsche, R., Kim, T., Yde, A., Henriksen, L. C., Natarajan, A., and Hansen, M. H.: Description of the DTU 10MW Reference Wind Turbine, DTU Wind Energy Report-I-0092, 2013.
Bottasso, C. and Cacciola, S.: Model independent periodic stability analysis of wind turbines, Wind Energy, 18, 865–887, 2015.
Coleman, R. P. and Feingold, A. M.: Theory of self excited mechanical oscillations of helicopter rotors with hinged blades, Technical Report NACA–TN-3844, NACA-TR-1351, Langley Research Center, 1958.
Fuglsang, P., Antoniou, I., Dahl, K. S., and Madsen, H. A.: Wind Tunnel Tests of the FFA-W3-241, FFA-W3-301 and NACA 63430 airfoils, Risø-R-1041(EN), Risø National Laboratory, Roskilde, Denmark, 1998.
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Short summary
In the paper, rotor stability in slow idling operation is assessed on the basis of nonlinear time domain and linear eigenvalue analyses. A consistent and computationally cost effective modeling environment has been presented for the analysis of parked or idling rotors. The analysis shows that the lowest damped modes of a 10 MW idling rotor are out-of-plane modes (symmetric and asymmetric).
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