Downwind wind turbine yaw stability and performance

In this experimental work, the yaw stability and performance of three different downwind rotors are measured and compared to those of the corresponding upwind rotors. A modular scale-model wind turbine that allows for either upwind or downwind operation, with a range of rotor cone and yaw angles, is...

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Bibliographic Details
Published in:Renewable energy 2015-11, Vol.83, p.1157-1165
Main Authors: Kress, C., Chokani, N., Abhari, R.S.
Format: Article
Language:English
Subjects:
Cone angle
Downwind wind turbine
Multi-megawatt
Power
Thrust
Tip speed ratio
Yaw stability
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Summary:In this experimental work, the yaw stability and performance of three different downwind rotors are measured and compared to those of the corresponding upwind rotors. A modular scale-model wind turbine that allows for either upwind or downwind operation, with a range of rotor cone and yaw angles, is used. The measurements, at near full-scale Reynolds numbers, show all downwind rotor configurations have yaw stability. On the otherhand, upwind turbines are shown to be either unstable or to have significantly reduced yaw stability compared to the corresponding downwind rotor configurations. Downwind configurations with zero, 5° and 10° cone have higher shaft power and rotor thrust than the corresponding upwind configurations. For zero yaw, the 5° and 10° cone angle, the downwind configurations each yield 5% more power, and have only 3% higher thrust, than the upwind configurations, indicating a potential benefit in performance compared to upwind configurations. Overall, it is concluded that coned downwind configurations provide for easier yaw control and yield more power. •The yaw stability and performance of downwind and upwind rotors are compared.•A modular scale-model wind turbine for upwind or downwind operation was developed.•All tested downwind rotor configurations have yaw stability.•Coned downwind configurations yield 5% more power than upwind configurations.
ISSN:0960-1481
1879-0682
DOI:10.1016/j.renene.2015.05.040