Variable structure strategy to avoid torque control saturation of a wind turbine in the presence of faults

Authors

  • C. Tutiv´en Author
  • Y. Vidal Author
  • L. Acho Author
  • J. Rodellar Author

DOI:

https://doi.org/10.24084/repqj14.274

Keywords:

wind turbine, torque control, saturation, faults, fault detection

Abstract

Every physical actuator is subject to saturation. It has been well recognized that, when the actuator saturates, the per formance of the closed-loop system (designed without considering actuator saturation) may seriously deteriorate. In extreme cases, the system stability may even be lost. This paper proposes an avoid saturation strategy for the torque controller of a wind turbine bench mark model. The simulation results show that the proposed strategy has a clear added value with respect to the baseline controller (well accepted industrial controller) in the presence of faults. Another advantage of the contributed method is that conservative bounds for the actuator torque can be fixed in order to extend the service life of the wind turbine.

Author Biographies

  • C. Tutiv´en

     Universitat Polit`ecnica de Catalunya,
     Applied Mathematics-III (MA-3) Department, CoDAlab,
     Comte d'Urgell, 187, 08036, Barcelona, Spain.

  • Y. Vidal

    Universitat Polit`ecnica de Catalunya,
     Applied Mathematics-III (MA-3) Department, CoDAlab,
     Comte d'Urgell, 187, 08036, Barcelona, Spain.

  • L. Acho

    Universitat Polit`ecnica de Catalunya,
     Applied Mathematics-III (MA-3) Department, CoDAlab,
     Comte d'Urgell, 187, 08036, Barcelona, Spain.

  • J. Rodellar

    Universitat Polit`ecnica de Catalunya,
     Applied Mathematics-III (MA-3) Department, CoDAlab,
     Comte d'Urgell, 187, 08036, Barcelona, Spain.

Downloads

Published

2024-01-16

Issue

Vol. 14 No. 2 (2016)

Section

Articles