Title :
An enhanced fault-ride-through capability of doubly-fed induction generators during grid faults
Author :
Azzouz, M.A. ; Elsaadany, E.F.
Abstract :
This paper discusses a new improved fault ride through technique of wind turbines equipped with doubly-fed induction generators (DFIG). The proposed technique replaces the conventional crowbar with a rotor current limiter (RCL) which is inserted to the rotor circuit upon grid faults detection. In additional to inserting a RCL, demagnetizing rotor currents are injected in order to reduce the induced high voltage appears on the rotor side converter. The proposed method allows the rotor side converter to stay connected to the system such that the DFIG can continue its normal operation immediately after the fault clearance. The simulation results show that the proposed technique limits the rotor inrush currents, DC voltage fluctuations, electromagnetic torque pulsations, and reactive power absorption during the fault and after the fault clearance.
Keywords :
asynchronous generators; current limiters; fault diagnosis; power convertors; power generation faults; power grids; reactive power; wind turbines; DC voltage fluctuations; DFIG; RCL; crowbar; demagnetizing rotor currents; doubly-fed induction generators; electromagnetic torque pulsations; enhanced fault-ride-through capability technique; fault clearance; grid fault detection; grid faults; reactive power absorption; rotor circuit; rotor current limiter; rotor inrush currents; rotor side converter; wind turbines; Circuit faults; Demagnetization; Reactive power; Resistance; Rotors; Stators; Voltage fluctuations; Fault-ride-through; demagnetizing rotor currents; doubly-fed induction generator (DFIG); rotor current limiter (RCL);
Conference_Titel :
Power and Energy Society General Meeting, 2012 IEEE
Conference_Location :
San Diego, CA
Print_ISBN :
978-1-4673-2727-5
Electronic_ISBN :
1944-9925
DOI :
10.1109/PESGM.2012.6345284
