Title :
Stabilizing torsional oscillations using a hunt reactor controller
Author :
Wang, Li ; Lee, Ching-Huel
Author_Institution :
Inst. of Electr. Eng., Nat. Cheng Kung Univ., Tainan, Taiwan
fDate :
9/1/1991 12:00:00 AM
Abstract :
Results of a study on the application of shunt reactors for the damping of torsional oscillations that occur in a power system containing series-capacitor compensation are presented. The IEEE Second Benchmark Model, system-1 is used to investigate the benefits of the utilization of modulated reactive power in suppressing unstable subsynchronous resonance (SSR) modal interactions. A set of shunt reactors is connected to the generator bus of the affected synchronous machine whose shaft is directly coupled to the turbine system of the benchmark model. In order to stabilize all the torsional modes, a unified approach based on modal control theory is proposed for the design of a shunt reactor controller, which is essentially a dynamic output compensator. To demonstrate the effectiveness of the damping enhanced by the proposed scheme, eigenvalue analysis for different loading conditions and sensitivity analysis for controller parameters are performed
Keywords :
compensation; damping; eigenvalues and eigenfunctions; oscillations; power system control; reactors (electric); resonance; stability; synchronous machines; IEEE Second Benchmark Model; damping; dynamic response; eigenvalue analysis; generator bus; hunt reactor controller; modal control theory; modulated reactive power; nonlinear system; power system; sensitivity analysis; series-capacitor compensation; synchronous machine; three-phase short-circuit; torsional oscillations stabilisation; unstable subsynchronous resonance; Damping; Inductors; Power system modeling; Reactive power; Resonance; Shafts; Shunt (electrical); Synchronous generators; Synchronous machines; Turbines;
Journal_Title :
Energy Conversion, IEEE Transactions on
