Robust coordinated design of power system stabilizer and excitation system using genetic algorithm to enhance the dynamic stability of al-zara thermal power station generation in Syria

Abstract EN

In this paper, a new formula of Power System Stabilizer (PSS) was adopted.

The design of PSS and Excitation system (an Exciter) parameters is formulated as an optimization problem.

A continuous genetic algorithm (GA) is employed for searching optimized parameters.

A multi-objective function includes the deviation in the oscillatory rotor speed of the generator is minimized in time-domain to improve the stability performance of the system.

The design is performed using linearized models of a real thermal power system, Al-Zara Thermal Power Station in Syria, at four operating conditions and large perturbation.

A cubic Hermite interpolation technique is employed to determine the smoothest possible curve that passes through its data set obtained by the GA.

The effectiveness and robustness of the designed stabilizer is investigated and compared with conventional PSS.

The simulation results show that the GA stabilizer (GAPSS + GAExciter) are able to provide better damping over a wide operating range with large perturbation and improve the overall systems’ performance.