Modeling of 14 Bus System with UPFC for Transient Stability Enhancement


  • Vipin Kumar Pandey M.Tech Scholar, Department of Electrical and Electronics Engineering, Technocrats Institute of Technology, Bhopal
  • Dr. Malaya Saurava Dash Associate Professor, Department of Electrical and Electronics Engineering, Technocrats Institute of Technology, Bhopal



The revolution of Power Electronics Technology has given opportunities for developing the FACTS devices for stable operation of power system. In the last two decades number of Power Electronic based devices are implemented and known as FACTS (Flexible AC transmission System).These devices are effectively used for voltage control, power flow control, harmonic elimination, damping oscillation and improving transient stability and minimization of losses. Static and Transient stability enhancement of IEEE 14 bus system is done with the help of UPFC. Fault is created at a bus and the results show that by properly placing UPFC, settling time of the system can be reduced considerably making the system stable with fewer oscillations.


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[1] M. H. Haque, “Improvement of first swing stability limit by utilizing full benefit of shunt FACTS devices,” IEEE Trans. Power Syst., Vol. 19, No. 4, pp. 1894–1902, Nov. 2004.
[2] A. C. Zolotas, B. Chaudhuri, I. M. Jaimoukha, and P. Korba, “A study on LQG/LTR control for damping inter-area oscillations in power systems,” IEEE Trans. on Control Systems Technology, Vol. 15, pp. 151–160, Jan. 2007.
[3] CHATTERJEE, D. and GHOSH, A.: 'Evaluation of transient stability margin of a power system containing multiple FACTS devices' , Proc.2005 IEEE PES General Meeting ,pp.1787-1794.
[4] JIANG, D. and LEI, X.: 'A nonlinear TCSC control strategy for power system stability enhancement', Proceedings of 5th International conf. APSCOM 2000, Hong Kong, 2000, pp.576-579.
[5] X. P. Zhang, C. Rehtanz, and B. Pal, Flexible AC Transmission Systems: Modelling and Control. Berlin: Springer, 2006.
[6] Arai J, Iba K, Funabashi T, Nakanishi Y, Koyanagi K, Yokoyama R. Power electronics and its applications to renewable energy in Japan. IEEE circuits and systems Magazine: Vol.8: No.3; 2008; p.52-66.
[7] Srithorn P, Aten M, and Parashar R. Series connection of supercapacitor modules for energy storage. IET Power Electronics, Machines and Drives; 2006.
[8] Kundur P. Power System Stability and Control. McGraw-Hill Inc; 1994.
[9] Srithorn P, Sumner M, Yao Liangzhong, and Parashar R. Power system stabilisation using STATCOM with supercapacitors. IEEE Industry Applications Society Annual Meeting; 2008, p.1-8
[10] Song Y H, and Johns A T. Flexible ac transmission systems (FACTS). Institution of Electrical Engineers London; 1999.
[11] H. C-T, C. H-J, and C. C-S. Power Quality Assessment of Large Motor Starting and Loading for the Integrated Steel-Making Cogeneration Facility. IEEE Trans on Industry Applications: Vol.43: No.2: 2007; p.395-402.
[12] Juanjuan W, Chuang F, and Yao Z. SVC Control System Based on Instantaneous Reactive Power Theory and Fuzzy PID. IEEE Trans on Industry Applications: Vol.55: No.4; 2008; p.1658-1665.
[13] P. W. Sauer and A. Pai, Power System Dynamics and Stability. Englewood Cliffs, NJ, USA: Prentice Hall, 1998.
[14] F. Okou, L.-A. Dessaint and O. Akhrif, "Power system stability enhancement using a wide area signals based hierarchical controller," IEEE Trans. Power Systems, Vol. 20, No. 3, pp. 1465-1477, Aug. 2005.
[15] K. S. Chandrashekhar and D. J. Hill, “Cutset stability criterion for power systems using a structure-preserving model,” Int. J. Elect. Power Energy Syst., Vol. 8, pp. 146–157, 1986.
[16] J. J. Ford, G. Ledwich, and Z. Y. Dong, “Efficient and robust model predictive control for first swing transient stability of power systems using flexible AC transmission systems devices,” IET Gener., Transm., Distrib., Vol. 2, pp. 731–742, 2008.
[17] V. Vittal, A. N. Michel, and A. A. Fouad, “Power system transient stability analysis: Formulation as nearly Hamiltonian systems,” Circuits, Syst., Signal Process., Vol. 3, No. 1, pp. 105–122, Mar. 1984.
[18] J. V. Milanovic, K. Yamashita, S. Martinez Villanueva, S. Z. Djokic, and L. M. Korunovic, “International industry practice on power system load modeling,” IEEE Trans. Power Syst., Vol. 28, No. 3, pp. 3038–3046, Aug. 2013.




How to Cite

Pandey, V. K., & Dash, D. M. S. (2019). Modeling of 14 Bus System with UPFC for Transient Stability Enhancement. SMART MOVES JOURNAL IJOSCIENCE, 5(4), 9–15.