Power curve and wake analyses of the Vestas multi-rotor demonstrator

Numerical simulations of the Vestas multi-rotor demonstrator (4R-V29) are compared with field measurements of power performance and remote sensing measurements of the wake deficit from a short-range WindScanner lidar system. The simulations predict a gain of 0 %–2 % in power due to the rotor interac...

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Bibliographic Details
Published in:Wind Energy Science 2019-05, Vol.4 (2), p.251-271
Main Authors: Maarten Paul van der Laan, Søren Juhl Andersen, Néstor Ramos García, Angelou, Nikolas, Georg Raimund Pirrung, Ott, Søren, Sjöholm, Mikael, Sørensen, Kim Hylling, Vianna Neto, Julio Xavier, Kelly, Mark, Mikkelsen, Torben Krogh, Gunner Christian Larsen
Format: Article
Language:English
Subjects:
Lidar
Remote sensing
Simulation
Turbines
Turbulence
Wind power
Wind speed
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Summary:Numerical simulations of the Vestas multi-rotor demonstrator (4R-V29) are compared with field measurements of power performance and remote sensing measurements of the wake deficit from a short-range WindScanner lidar system. The simulations predict a gain of 0 %–2 % in power due to the rotor interaction at below rated wind speeds. The power curve measurements also show that the rotor interaction increases the power performance below the rated wind speed by 1.8 %, which can result in a 1.5 % increase in the annual energy production. The wake measurements and numerical simulations show four distinct wake deficits in the near wake, which merge into a single-wake structure further downstream. Numerical simulations also show that the wake recovery distance of a simplified 4R-V29 wind turbine is 1.03–1.44 Deq shorter than for an equivalent single-rotor wind turbine with a rotor diameter Deq. In addition, the numerical simulations show that the added wake turbulence of the simplified 4R-V29 wind turbine is lower in the far wake compared with the equivalent single-rotor wind turbine. The faster wake recovery and lower far-wake turbulence of such a multi-rotor wind turbine has the potential to reduce the wind turbine spacing within a wind farm while providing the same production output.
ISSN:2366-7443
2366-7451
DOI:10.5194/wes-4-251-2019