Title :
Optimized design of wide-area PSS for damping of inter-area oscillations
Author :
Patidar, N.P. ; Kolhe, M.L. ; Tripathy, N.P. ; Sahu, B. ; Sharma, A. ; Nagar, L.K. ; Azmi, A.N.
Author_Institution :
Nat. Inst. of Tech. Teachers´ Training & Res., Bhopal, India
Abstract :
In this paper a genetic algorithm based wide area power system stabilizer (PSS) in a multi machine power system for damping of low frequency inter-area oscillations has been presented. The wide area PSS is composed of two stages, the input of one stage is a local signal and the input of other is a global signal. Geometric measure of controllability and observability is used to select the most effective stabilizing signals and location of controller. Tie line active power flow deviation is found to be the most effective input signal. Time domain based objective function is minimized, in which the deviation in the oscillatory rotor speed of generator is involved so that the stability performance of the system is improved. In this work, two area - four machine systems are used as a test system.
Keywords :
damping; genetic algorithms; load flow; oscillations; power system stability; time-domain analysis; generator oscillatory rotor speed; genetic algorithm; interarea oscillation damping; multimachine power system; tie line active power flow deviation; time domain based objective function; two area-four machine systems; wide area power system stabilizer; wide-area PSS; Controllability; Generators; Genetic algorithms; Load flow; Observability; Oscillators; Power system stability; Wide-area PSS; genetic algorithm; geometric measure of controllability and observability; low frequency inter-area oscillation;
Conference_Titel :
Power Electronics and Drive Systems (PEDS), 2015 IEEE 11th International Conference on
Conference_Location :
Sydney, NSW
DOI :
10.1109/PEDS.2015.7203453
