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Dynamic wake analysis of a wind turbine providing frequency containment reserve in high wind speeds

Narender Singh (UGent) , Jeroen De Kooning (UGent) and Lieven Vandevelde (UGent)
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Abstract
With the continuous evolution of the power system towards a more renewable energy based system, a natural and gradual transition will be to provide ancillary services by using renewable production units. Research has shown this to be feasible for wind farms by using efficient prediction and sophisticated control systems. In some parts of the world, strict grid codes are already being implemented that require wind farms to provide ancillary services. Moreover, the primary reserve market in Europe is moving towards shorter procurement periods, providing wind farms an opportunity to more efficiently optimise their resources based on short term forecasts. As a result of these developments, it is expected that more wind farms will provide ancillary services in the near future. The provision of Frequency Containment Reserve (FCR) requires a fast regulation of the turbine power based on the changes of the grid frequency. It is expected that this will have an impact on the wake behind the wind turbine. In wind parks with a high capacity density, such as the offshore wind parks in Belgium, it is important to investigate this impact as it can affect other neighbouring turbines. This paper investigates the dynamic behaviour of the wake generated by a wind turbine providing grid frequency support with FCR.
Keywords
Frequency containment reserve, Wake effect, Frequency based control, Wind turbine control

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Citation

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MLA
Singh, Narender, et al. “Dynamic Wake Analysis of a Wind Turbine Providing Frequency Containment Reserve in High Wind Speeds.” The 9th Renewable Power Generation Conference (RPG Dublin Online 2021), IET, 2021, pp. 131–36, doi:10.1049/icp.2021.1364.
APA
Singh, N., De Kooning, J., & Vandevelde, L. (2021). Dynamic wake analysis of a wind turbine providing frequency containment reserve in high wind speeds. The 9th Renewable Power Generation Conference (RPG Dublin Online 2021), 131–136. https://doi.org/10.1049/icp.2021.1364
Chicago author-date
Singh, Narender, Jeroen De Kooning, and Lieven Vandevelde. 2021. “Dynamic Wake Analysis of a Wind Turbine Providing Frequency Containment Reserve in High Wind Speeds.” In The 9th Renewable Power Generation Conference (RPG Dublin Online 2021), 131–36. IET. https://doi.org/10.1049/icp.2021.1364.
Chicago author-date (all authors)
Singh, Narender, Jeroen De Kooning, and Lieven Vandevelde. 2021. “Dynamic Wake Analysis of a Wind Turbine Providing Frequency Containment Reserve in High Wind Speeds.” In The 9th Renewable Power Generation Conference (RPG Dublin Online 2021), 131–136. IET. doi:10.1049/icp.2021.1364.
Vancouver
1.
Singh N, De Kooning J, Vandevelde L. Dynamic wake analysis of a wind turbine providing frequency containment reserve in high wind speeds. In: The 9th Renewable Power Generation Conference (RPG Dublin Online 2021). IET; 2021. p. 131–6.
IEEE
[1]
N. Singh, J. De Kooning, and L. Vandevelde, “Dynamic wake analysis of a wind turbine providing frequency containment reserve in high wind speeds,” in The 9th Renewable Power Generation Conference (RPG Dublin Online 2021), Dublin, Ireland (Online), 2021, pp. 131–136.
@inproceedings{8698417,
  abstract     = {{With the continuous evolution of the power system towards a more renewable energy based system, a natural and gradual transition will be to provide ancillary services by using renewable production units. Research has shown this to be feasible for wind farms by using efficient prediction and sophisticated control systems. In some parts of the world, strict grid codes are already being implemented that require wind farms to provide ancillary services. Moreover, the primary reserve market in Europe is moving towards shorter procurement periods, providing wind farms an opportunity to more efficiently optimise their resources based on short term forecasts. As a result of these developments, it is expected that more wind farms will provide ancillary services in the near future. The provision of Frequency Containment Reserve (FCR) requires a fast regulation of the turbine power based on the changes of the grid frequency. It is expected that this will have an impact on the wake behind the wind turbine. In wind parks with a high capacity density, such as the offshore wind parks in Belgium, it is important to investigate this impact as it can affect other neighbouring turbines. This paper investigates the dynamic behaviour of the wake generated by a wind turbine providing grid frequency support with FCR.}},
  author       = {{Singh, Narender and De Kooning, Jeroen and Vandevelde, Lieven}},
  booktitle    = {{The 9th Renewable Power Generation Conference (RPG Dublin Online 2021)}},
  isbn         = {{9781839535048}},
  keywords     = {{Frequency containment reserve,Wake effect,Frequency based control,Wind turbine control}},
  language     = {{eng}},
  location     = {{Dublin, Ireland (Online)}},
  pages        = {{131--136}},
  publisher    = {{IET}},
  title        = {{Dynamic wake analysis of a wind turbine providing frequency containment reserve in high wind speeds}},
  url          = {{http://doi.org/10.1049/icp.2021.1364}},
  year         = {{2021}},
}

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