Authors: Rungnapa Taithai, Anant Oonsivilai

Abstract:

This paper presents optimal based damping controllers of Unified Power Flow Controller (UPFC) for improving the damping power system oscillations. The design problem of UPFC damping controller and system configurations is formulated as an optimization with time domain-based objective function by means of Adaptive Tabu Search (ATS) technique. The UPFC is installed in Single Machine Infinite Bus (SMIB) for the performance analysis of the power system and simulated using MATLAB-s simulink. The simulation results of these studies showed that designed controller has an tremendous capability in damping power system oscillations.

Keywords: Adaptive Tabu Search (ATS), damping controller, Single Machine Infinite Bus (SMIB), Unified Power Flow Controller (UPFC).

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1057151

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 2435

References:

[1] L. Gyugyi, "Unified power flow control concept for flexible AC transmission system", IEE Proceedings, vol. 139(4) pp.323-331, 1992.
[2] K. R. Padiyar, "Power system dynamics stability and control" Indian Institute of science, Bangalore, 1995.
[3] Y. H. Song and A. T. Johns, "Flexible ac transmission system (FACTS)" IEE Power and energy series 30, 1999.
[4] N. Tambey, and M. L. Kothari, "Damping of power system oscillations with unified power flow controller (UPFC)", IEE Proc.-Gener. Transm. Distrib., Vol. 150, No. 2, March, 2003.
[5] N. Tambey, and M. L. Kothari, "Unified Power Flow controller (UPFC) Based Damping Controllers for Damping Low Frequency Oscillations in a Power System", Meeting held at Ranchi, Vol 84, June 2003.
[6] S. Baskaran, N. Karpagam, and D. Devaraj, "Optimization of UPFC Controllable Parameter for Stability Enhancement with Real-Coded Genetic Algorithm", IEEE International Conference on Advances in Engineering, Science And Management (ICAESM). March 2012.
[7] A. Jalilvand, and A. Safari, "Design of an Immune-Genetic Algorithm- Based Optimal State Feedback Controller an UPFC", IEEE Second International Conference on Computer and Electrical Engineering, 2009.
[8] S. Jalilzadeh, H. Shayeghi, A. Safari, and D. Masoomi, "Output Feedback Controller Design by Using Quantum Particle Swarm Optimization", IEEE Second International Conference on Computer and Electrical Engineering, 2009.
[9] H. F. Wang, "Damping function of unified power flow controller", IEE Proc. Gener. Transm. Distrib., Vol. 146, No. 1, January 1999.
[10] H. F. Wang, "A Unified Model for the Analysis of FACTS Devices in Damping Power System Oscillations-Part III: Unified Power Flow Controller", IEEE Transactions on power delivery, Vol. 15 NO. 3, July 2000.
[11] E. Babaei, A. Mokari, M. Sadeghi, and S. Khani, "An Improved PSO and Genetic Algorithm Based Damping Controller Used in UPFC for Power System Oscillations Damping", International Conference Electrical Machines and System (ICEMS), 2011.
[12] S. Jalilzadeh, H. Shayeghi, A. Safari, and E. Aliabadi, "Robust Coordinated Design of UPFC Damping Controller and PSS Using Chaotic Optimization Algorithm", IEEE Second International Conference on Computer and Electrical Engineering., 2009.
[13] Mojtaba Shirvani, Pejman Shakeri, Elahe Behzadipour, and Iman Baghbani, "Unified Power Flow Controller Design based on Shuffled Frog Leaping Algorithm", Life Science Journal, 2012.
[14] D. Puangdownreong, K-N. Areerak, A. Srikaew, S. Sujitjorn and P.Totarong, "System Identification via Adaptive Tabu Search," Proc. IEEE International Conf. on Ind. Tech. (ICIT02), pp.915-92, 2002.
[15] A. Oonsivilai and P. Pao-la-or, "Application of Adaptive Tabu Search for Optimum PID Controller Tuning AVR System," Wseas Transactions on Power System, Vol.3, June 2008.
[16] Unchim, T. and Oonsivilai, A. 2011. A study of wind speed characteristic in PI controller based DFIG wind turbine. World Academy of Science, Engineering and Technology, Bangkok, 24-25 December, pp: 1221-1226.
[17] Oonsivilai, A. and Greyson, K. A. 2010. Intelligent decision aiding agent using the causal network in a power system contingency analysis. European Journal of Scientific research. ISSN: 1450 - 216x. 43:1: 87 - 95.
[18] Greyson, K.A. and Oonsivilai, A. 2009. Identification of critical measurements in power system network. Proc. IEEE Power System & Conference and Exposition (PSCE). Pp 1-6. March 15 - 18, Seattle, WA. USA.
[19] Greyson, K.A. and Oonsivilai, A. 2009. Measurement loss effect on power system state estimation. Proc. IEEE International Conference on Robotics and Biomimetics, Robio. pp. 883 -888. February 22 - 25. Bangkok, Thailand.
[20] Oonsivilai, A and Greyson, K.A. 2009. Power ration effect on limited power generation costs. Proc. Of IEEE International Conference, Global Congress on Intelligent Systems (GCIS 2009). pp. 3734 - 378.
[21] Oonsivilai, A. and Greyson, K.A. 2009. State estimation using extended SEMM in power system. Proc. IEEE Conference, SUPERGEN 2009, Nanjing, China.
[22] Oonsivilai, A. and Greyson, K.A. 2009. Effect of electric power shedding on economic dispatch: Case study Tanzania. Proc. IEEE Conference ICIEA 2009, May 22 -25. China.
[23] Oonsivilai, A. and Greyson, K.A. 2009. Optimization of distributed processors for power system: Kalman Filters using Petri Net. Proc. WASET, May 27-29, Tokyo, Japan.