A fault detection method for pitch actuators faults in wind turbines

Authors

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

DOI:

https://doi.org/10.24084/repqj13.455

Keywords:

Parameter estimation, fault detection, wind turbine, FAST, Hardware in the Loop

Abstract

The paper presents a model-based fault detection method for pitch actuators faults using the normalized gradient method to estimate the parameters of the pitch actuator. One major difficulty is that the input signal to the parametric estimation method must be a persistent excitation. To circumvent this, a chattering term is added to the pitch control law and the usual low-pass filters are not used for the parametrization in the normalized gradient method (thus acceleration information is used). In order to verify the proposed method, simulations are conducted within a Hardware in the Loop (HiL) platform using the wind turbine simulation software FAST (Fatigue, Aerodynamics, Structures, and Turbulence).

Author Biographies

  • C. Tutiv´en

    Universitat Polit`ecnica de Catalunya,

    Applied Mathematics III Department, CoDAlab,

    Comte d’Urgell, 187, 08036, Barcelona, Spain.

    Phone number:+0034934137309, e-mail: christian.tutiven@upc.edu,

  • Y. Vidal

    Universitat Polit`ecnica de Catalunya,

    Applied Mathematics III Department, CoDAlab,

    Comte d’Urgell, 187, 08036, Barcelona, Spain.

    Phone number:+0034934137309, e-mail: yolanda.vidal@upc.edu

  • L. Acho

    Universitat Polit`ecnica de Catalunya,

    Applied Mathematics III Department, CoDAlab,

    Comte d’Urgell, 187, 08036, Barcelona, Spain.

    Phone number:+0034934137309, e-mail: leonardo.acho@upc.edu

  • J. Rodellar

    Universitat Polit`ecnica de Catalunya,

    Applied Mathematics III Department, CoDAlab,

    Comte d’Urgell, 187, 08036, Barcelona, Spain.

    Phone number:+0034934137309, e-mail: jose.rodellar@upc.edu

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Published

2024-01-16

Issue

Vol. 13 No. 6 (2015)

Section

Articles