Wind Energy Science (Nov 2023)

Wind vane correction during yaw misalignment for horizontal-axis wind turbines

  • A. Rott,
  • L. Höning,
  • L. Höning,
  • P. Hulsman,
  • L. J. Lukassen,
  • C. Moldenhauer,
  • M. Kühn

DOI
https://doi.org/10.5194/wes-8-1755-2023
Journal volume & issue
Vol. 8
pp. 1755 – 1770

Abstract

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This paper investigates the accuracy of wind direction measurements for horizontal-axis wind turbines and their impact on yaw control. The yaw controller is crucial for aligning the rotor with the wind direction and optimizing energy extraction. Wind direction is conventionally measured by one or two wind vanes located on the nacelle, but the proximity of the rotor can interfere with these measurements. The authors show that the conventional corrections, including low-pass filters and calibrated offset correction, are inadequate to correct a systematic overestimation of the wind direction deviation caused by the rotor misalignment. This measurement error can lead to an overcorrection of the yaw controller and, thus, to an oscillating yaw behaviour, even if the wind direction is relatively steady. The authors present a theoretical basis and methods for quantifying the wind vane measurement error and validate their findings using computational fluid dynamics simulations and operational data from two commercial wind turbines. Additionally, the authors propose a correction function that improves the wind vane measurements and demonstrate its effectiveness in two free-field experiments. Overall, the paper provides new insights into the accuracy of wind direction measurements and proposes solutions to improve the yaw control for horizontal-axis wind turbines.