Gurney Flap Implementation on a DU91W250 Airfoil

Gurney Flap Implementation on a DU91W250 Airfoil

The increasing capability of Wind Turbine (WT) based power generation systems has derived in an increment of the WT rotor diameter, i.e., longer rotor blades. This results in an increase of the electrical power generated but also in instabilities in the operation of the WT, especially due to the mec...

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Veröffentlicht in:Proceedings 2018-11, Vol.2 (23), p.1448
Hauptverfasser: Iñigo Aramendia, Aitor Saenz-Aguirre, Unai Fernandez-Gamiz, Ekaitz Zulueta, Jose Manuel Lopez-Guede, Ana Boyano, Javier Sancho
Format: Artikel
Sprache:eng
Schlagworte:
aerodynamics
flow control
Gurney Flap
optimization
wind turbine
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Zusammenfassung:The increasing capability of Wind Turbine (WT) based power generation systems has derived in an increment of the WT rotor diameter, i.e., longer rotor blades. This results in an increase of the electrical power generated but also in instabilities in the operation of the WT, especially due to the mechanical fatigue loads generated in its elements. In this context, flow control has appeared as a solution to improve the aerodynamic performance of the blades. These devices not only increase lift coefficient but also reduce mechanical fatigue loads. This paper presents a detailed numerical analysis of the effects of placing a passive flow control element, a Gurney Flap (GF), in a DU91W250 airfoil. Moreover, a numerical study of the influence of the GF length on the aerodynamic performance of the blade has been carried out. This study is considered as a basis for the development of an optimization technique of the GF length for long WT blades.
ISSN:2504-3900
DOI:10.3390/proceedings2231448