Searched for: subject%3A%22Dynamic%255C+induction%255C+control%22
(1 - 4 of 4)
document
Frederik, J.A. (author), van Wingerden, J.W. (author)
In recent studies, the effectiveness of different so-called wake mixing strategies has been assessed in terms of wind farm power maximization. These studies show that by dynamically varying the pitch angles of a wind turbine, wake mixing can be enhanced to increase the overall power production of a wind farm. However, such strategies also...
journal article 2022
document
de Boer, Emiel (author)
To meet current renewable energy demands, there is a major increase in global wind power capacity. Wind turbines are commonly clustered in wind farms. When operating, wind turbines extract energy from the wind, creating a region characterized by a low velocity, called the wake. The wake negatively impacts the power production of downstream wind...
master thesis 2021
document
Abbas, Omar (author)
Placing wind turbines together is economically advantageous. It helps in decreasing the use of land or sea space, impact on the landscape and the cost of installation and maintenance. However, placing turbines together has a downside: the aerodynamics interaction caused by the wakes can negatively influence the total electrical power production...
master thesis 2021
document
Frederik, J.A. (author), Doekemeijer, B.M. (author), Mulders, S.P. (author), van Wingerden, J.W. (author)
Wind farm control using dynamic concepts is a research topic that is receiving an increasing amount of interest. The main concept of this approach is that dynamic variations of the wind turbine control settings lead to higher wake turbulence, and subsequently faster wake recovery due to increased mixing. As a result, downstream turbines...
journal article 2020
Searched for: subject%3A%22Dynamic%255C+induction%255C+control%22
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