Authors: N. Senthil Kumar, M. Abdullah Khan
Addresses: Department of Electrical Engineering, B.S.A. Crescent Engineering College, Vandalur, Chennai-48, India. ' Department of Electrical Engineering, B.S.A. Crescent Engineering College, Vandalur, Chennai-48, India
Abstract: The increasing power demand has led to the growth of new technologies that play an integral role in shaping the future energy market. Keeping in view of the environmental constraints, grid connected wind turbines are promising in increasing system reliability. This paper presents the impact of FACTS controllers on the long-term dynamic stability of power systems connected with wind farms based on doubly fed induction generator systems. The stability assessment is made first for a three-phase short circuit without the FACTS controllers in the power network and then with the FACTS controllers. The long-term dynamic simulation results yield information on: 1) the impact of faults and slow wind speed changes on the performance of wind driven induction generators; 2) the change in controllable parameters of the FACTS controllers following the faults and wind speed changes; 3) transient reactive power ratings of FACTS controllers for enhancement of rotor speed stability of induction generators and angle stability of synchronous generators.
Keywords: wind energy conversion systems; flexible AC transmission systems; FACTS controllers; rotor angle stability; rotor speed stability; long-term dynamic simulation; wind power; renewable energy; faults; wind speed; wind driven induction generators.
International Journal of Renewable Energy Technology, 2010 Vol.1 No.3, pp.256 - 278
Published online: 15 Mar 2010 *Full-text access for editors Access for subscribers Purchase this article Comment on this article