Title :
Sensor fault-tolerant control of wind turbine systems
Author :
Saberi, Amir ; Salmasi, Farzad R. ; Najafabadi, Tooraj Abbasian
Author_Institution :
Sch. of Electr. & Comput. Eng., Univ. of Tehran, Tehran, Iran
Abstract :
In this paper, an H∞ method based controller is designed to achieve high performance in extreme wind speed profile and tolerate possible actuator faults. This controller uses generator and rotor speed measurements and blade pitch actuator as control input. Moreover, a sliding mode fault detection and isolation (FDI) system is applied to reconstruct and compensate wind turbine´s sensor faults. The controller parameters is obtained by solving a bi-linear matrix inequality. Designed controller uses the FDI output to regulate the wind turbine power in faulty condition and above rated wind speed. Closed loop performance is assessed through implementation of FDI and proposed controller, on a 5-MW benchmark wind turbine simulator, emulating realistic operation condition.
Keywords :
H∞ control; angular velocity control; blades; control system synthesis; electric actuators; electric sensing devices; fault diagnosis; fault tolerant control; linear matrix inequalities; pitch control (position); power control; power generation control; power generation faults; rotors; variable structure systems; velocity measurement; wind turbines; FDI system; H∞ method based controller design; actuator fault; bilinear matrix inequality; blade pitch actuator; closed loop performance; power 5 MW; power regulation; rotor speed measurement; sensor fault-tolerant control; sliding mode fault detection and isolation system; wind speed profile; wind turbine system; Fault detection; Generators; Fault detection and isolation; Fault-tolerant control; H∞ control; Sliding mode observer;
Conference_Titel :
Thermal Power Plants (CTPP), 2014 5th Conference on
Conference_Location :
Tehran
Print_ISBN :
978-1-4799-5649-4
DOI :
10.1109/CTPP.2014.7040693
