Power System Small Signal Stability Analysis Using Facts Pod
||International Journal of Computer Trends and Technology (IJCTT)||
|© 2019 by IJCTT Journal|
|Year of Publication : 2019|
|Authors : Mayank Singh Verma, Poonam Khatarkar, Kumar Prabhakar|
|DOI : 10.14445/22312803/IJCTT-V67I7P109|
MLA Style: Mayank Singh Verma, Poonam Khatarkar, Kumar Prabhakar"Power System Small Signal Stability Analysis Using Facts Pod" International Journal of Computer Trends and Technology 67.7 (2019): 57-61.
APA Style Mayank Singh Verma, Poonam Khatarkar, Kumar Prabhakar. Power System Small Signal Stability Analysis Using Facts Pod International Journal of Computer Trends and Technology, 67(7),57-61.
In this paper, a coordinated design of POD and SSSC controller to improve the damping of low frequency oscillations is shown. The design problem has been considered an optimization problem based on Genetic Algorithm & Particle Swarm Optimization (PSO) is used for searching the optimal controller parameters. The proposed controller is employed for a Kundur two area four machines systems. The results are displayed under small disturbance, to present the efficiency of the proposed method. The proposed controller provides sufficient damping for power system oscillations, under small disturbances. Results analysis shows that the use of PSO-based optimization algorithm has a higher efficiency in damping oscillations of the power system, compared with the GA, and increases the dynamic stability more.
 K. Sebaa, M. Boudour, “Robust power system stabilizers design using multi objective genetic algorithm,” IEEE Power Engineering Society General Meeting, Jun. 2007, pp. 1–7.
 Kundur P., Power System Stability and Control. New York: McGraw- Hill, 1994.
 Aboul-Ela M. E., Sallam A. A., Mccalley J. D., and Fouad A. A.,“Damping controller design for power system oscillations using global signals,” IEEE Trans. Power Syst., vol. 11, no. 2, pp. 767–773, May 1996.
 Majumder R., Chaudhuri B., Pal B. C., and Zhong Q. C., “A unifiedSmith predictor approach for power system damping control design using remote signals,” IEEE Trans. Control Syst. Technol., vol. 13, no.6, pp. 1063–1068, Nov. 2005.
 Pal, B.C. “Robust Damping Control of Inter-Area Oscillations in Power System with Super-conducting Magnetic Energy Storage Devices ,” PhD thesis, Imperial college of Science Technology and Medicine, Department of Electrical & Electronics Engineering.
 Paserba J., „Analysis and Control of Power System Oscillation? CIGRE special publication 2007, Technical Brochure 111.
 Zhang P., Messina A. R, Coonick A., and Cory B. J., “Selection of locations and input signals for multiple SVC damping controllers in large scale power systems,” in Proc. IEEE Power Eng. Soc. Winter Meeting,1998, pp. 667–670.
 W. Hongxia, K. S. Tsakalis, and G. T. Heydt, "Evaluation of time delay effects to wide-area power system stabilizer design," IEEE Trans. on Power Syst., vol. 19, pp. 1935-1941, Nov. 2004.
 Y. Zhang and A. Bose, "Design of wide-area damping controllers for interarea oscillations," IEEE Trans. on Power Syst., vol. 23, pp. 1136- 1143, Aug. 2008.
 R. P. S. Shrikant, S. Indraneel, “Robust tuning of power system stabilizer using QFT,” IEEE Transactions on Control Systems Technology, vol. 7, pp. 478–486, 1999.
 T. K. S. Kumpar, J. Pal, “Robust tuning of power system stabilizers using optimization techniques,” IEEE International Conference on Industrial Technology, 2006, pp. 1143–1148.
 M. Rashidi, F. Rashidi, H. Monavar, “Tuning of power system stabilizers via genetic algorithm for stabilization of power systems,” IEEE International Conference on Systems, Man and Cybernetics, 2003, pp. 4649–4654.
 I. Kamwa, I. Trudel. G. Gerin-Lajoie, “Robust design and coordination of multiple damping controllers using nonlinear constrained optimization,” Power Industry Computer Applications, 1999, pp. 87–94.
 C. T. Tse, K. W. Wang, C. Y. Chung, K. M. Tsang, “Robust POD design considering multi-operating conditions,” International Conference on Electric Utility Deregulation and Restructuring and Power Technologies, 2000, pp. 465 – 470.
 Hingorani NG, Gyugyi L. Understanding FACTS: concepts and technology of flexible AC transmission systems. New York: IEEE Press; 2000.
 Khadanga RK, Satapathy JK. Gravitational search algorithm for the static synchronous series compensator based damping controller design. IEEE TechSym 2014;356:361.
 Mahran A. R., B. Hogg W., and El-Sayed M. L., Coordinated Control of Synchronous Generator Excitation and Static VAR Compensator, IEEE Trans. Energy Conversion, 7(4): 615--622, December 1992
 J. Kennedy, R.C. Eberhart, “Particles Swarm Optimization”, Proc. IEEE International Conference on Neural Networks, Perth Australia, pp.1942-1948, 1995.
 Khadanga RK, Satapathy JK. Gravitational search algorithm for the static synchronous series compensator based damping controller design. IEEE TechSym 2014; 356:361.
POD, SSSC, small signal stability, Genetic Algorithm (GA), Particle Swarm Optimization (PSO).