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

Author
Tutivén, C.; Vidal, Y.; Acho, L.; Rodellar, J.
Type of activity
Presentation of work at congresses
Name of edition
ICREPQ'16 - International Conference on Renewable Energy and Power Quality
Date of publication
2016
Presentation's date
2016-05-05
Book of congress proceedings
International Conference on Renewable Energy and Power Quality Journal
First page
1
Last page
7
Project funding
2014SGR859
DPI2014-58427-C2-1-R, Desarrollo y validación de sistemas de detección de fallos y diseño de estrategias de control tolerante a fallos con aplicación a plantas de energía eólica offshore
Design of advanced control strategies and fault detection for complex mechatronic systems
Repository
http://hdl.handle.net/2117/88827 Open in new window
http://www.icrepq.com/icrepq'16/274-16-tutiven.pdf Open in new window
Abstract
Every physical actuator is subject to saturation. It has been well recognized that, when the actuator saturates, the performance 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 benchmark model. The simulation results show that the proposed strategy has a clear added value with respect to the b...
Citation
Tutivén, C., Vidal, Y., Acho, L., Rodellar, J. Variable structure strategy to avoid torque control saturation of a wind turbine in the presence of faults. A: International Conference on Renewable Energies and Power Quality. "International Conference on Renewable Energy and Power Quality Journal". Madrid: 2016.
Keywords
fault detection, faults, saturation, torque control, wind turbine
Group of research
CoDAlab - Control, Dynamics and Applications

Participants

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