Searched for: subject%3A%22Wake%255C%2Bsteering%22
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Doekemeijer, B.M. (author), Kern, S. (author), Maturu, S. (author), Kanev, S. (author), Salbert, B. (author), Schreiber, J. (author), Campagnolo, F. (author), Bottasso, C.L. (author), Schuler, S. (author), Wilts, F. (author), Neumann, T. (author), Potenza, G. (author), Calabretta, F. (author), Fioretti, F. (author), van Wingerden, J.W. (author)
The concept of wake steering on wind farms for power maximization has gained significant popularity over the last decade. Recent field trials described in the literature not only demonstrate the real potential of wake steering on commercial wind farms but also show that wake steering does not yet consistently lead to an increase in energy...
article 2021
Kanev, S.K. (author), Bot, E. (author), Giles, J. (author)
Active wake control (AWC) is a strategy for operating wind farms in such a way as to reduce the wake effects on the wind turbines, potentially increasing the overall power production. There are two concepts to AWC: induction control and wake redirection. The former strategy boils down to down-regulating the upstream turbines in order to increase...
article 2020
Kanev, S. (author)
Active wake control (AWC) is an operational strategy for wind farms that aims at reducing the negative effects of wakes behind wind turbines on the power production and mechanical loads at the wind turbines' downstream. For a given wind direction, the strategy relies on collaborative control of the machines within each row of turbines that...
article 2019