DocumentCode
2916377
Title
Research on the Control Strategy of Low Voltage Ride-Through for Doubly Fed Induction Generator
Author
Jianhua, Zhang ; Jian, Wang ; Yueping, Mo ; Fulong, Xin
Author_Institution
Coll. of Electr. Eng., Yangzhou Univ., Yangzhou, China
fYear
2011
fDate
19-20 Feb. 2011
Firstpage
284
Lastpage
289
Abstract
With the development of modern wind energy generation, higher requirements to the grid in case of a failure were raised. In order to faciliate the recovery of power, while voltage dips in a certain range, protecting the rotor side converter and providing reactive power to the grid are both needed according to the requirements. This paper takes DFIG for example, in order to protect the rotor side converter, we analyze different voltage phase angles and DFIG´s electromagnetic transition process while the voltage dips. Proposing a method to eliminate harmonic components during transition process, that the proposed control strategy. Simulation results show that the control strategy can achieve the purpose of protecting the rotor side converter, while eliminating the harmonic currents of stator side and rotor side under voltage dips.
Keywords
asynchronous generators; machine control; power convertors; power generation control; power grids; power supply quality; reactive power control; rotors; stators; wind power plants; DFIG electromagnetic transition process; doubly fed induction generator; dynamic response analysis; harmonic component elimination; low voltage ride through control strategy; power grid; reactive power; rotor side converter protection; voltage dip; voltage phase angle analysis; wind energy generation; Equations; Harmonic analysis; Mathematical model; Rotors; Stators; Voltage control; Voltage fluctuations; Doubly fed generator; Dynamic response analysis; Voltage sag; Wind energy generation;
fLanguage
English
Publisher
ieee
Conference_Titel
Computer Distributed Control and Intelligent Environmental Monitoring (CDCIEM), 2011 International Conference on
Conference_Location
Changsha
Print_ISBN
978-1-61284-278-3
Electronic_ISBN
978-0-7695-4350-5
Type
conf
DOI
10.1109/CDCIEM.2011.466
Filename
5747818
Link To Document