Security enhancement with hybrid OPF method using FACTS devices forderegulated power networks

Ragaleela D.*, Padmanabha Raju**, K. Vaisakh***
*,** Associate Professor, Department of Electrical & Electronics Engineering, P.V.P.Siddhartha Institute of Engineering & Technology, Kanuru.
*** Professor, Department of Electrical Engineering, A.U.College of Engineering, Andhra University, Visakhapatnam.
**** Associate Professor, Department of Electrical Engineering, J.N.T.University, Kakinada.
Periodicity:October - December'2009
DOI : https://doi.org/10.26634/jee.3.2.1048

Abstract

The planning, operation and control of power system are having great significance governed by security considerations. The estimation of effect of contingencies and planning suitable measures are desirable issues for maintaining security of complex power system. In this paper a novel hybrid method, called Interior Point method embedded with Evolutionary Particle Swarm Optimization is employed to solve optimal power flow problem. IPM-EPSO based methodology considering Series FACTS device like SSSC was proposed for improving the system security and for minimization of fuel cost under consideration of degree of severity of the contingencies. The ranking for the network contingencies is evaluated using composite criteria based fuzzy logic for eliminating masking effects. The proposed hybrid OPF technique using SSSC for deregulated power industry has been tested under simulated conditions on a fewer systems and the results for modified deregulated IEEE 30-bus system were presented for illustration purpose.

Keywords

Optimal Power Flow, SSSC, Contingency Analysis, Deregulated Power Industry.

How to Cite this Article?

D. Ragaleela, CH. Padmanabha Raju, K. Vaisakh and S. Sivanaga Raju (2009). Security Enhancement with Hybrid OPF Method using Facts Devices for Deregulated Power Networks. i-manager’s Journal on Electrical Engineering, 3(2), Oct-Dec 2009, Print ISSN 0973-8835, E-ISSN 2230-7176, pp. 49-58. https://doi.org/10.26634/jee.3.2.1048

References

[1]. Alberto Berizzi, Maurizio Delfanti, Paolo Marannnino and Marco Savino Pasquadibisceglie, “Enhanced Security-Constrained OPF with FACTS devices” IEEE Transactions on Power Systems, Vol.20, No.3, August, 2005.
[2]. F.Milano, C.A.Canizares and A.J.Conejo, “Sensitivity based security constrained OPF market clearing model”, IEEE transactions on Power Systems, Vol.20, No.4, November 2005.
[3]. Sung-Hwan Song, Jung-Uk Lim and Seung-II Moon, “FACTS operation scheme for enhancement of power system security”, IEEE Bologna Power Tech Conference, Bologna, June 23-26, 2003.
[4]. Robert C.Degeneff, Wendell Neugebauer, Charles H. Saylor and Steven L. Corey, “Security constrained optimization: An added dimension in utility systems optimal power flow”, IEEE Computer Applications in Power, 1988.
[5]. Yunqiang Lu and Ali Abur, “Static security enhancement via optimal utilization of thyristor controlled series capacitors”, IEEE Transactions on Power Systems, Vol.17, No.2, May 2002.
[6]. Yuan-Yih Hsu and Han-Ching Kuo, “Fuzzy set based contingency ranking”, IEEE Transactions on Power Systems, Vol.7, No.3, August, 1992
[7]. F.M.EL-Kady, “Contingency analysis in the presence of series FACTS in power systems” IEEE Transmission and distribution conference and exposition, 2001.
[8]. Edgardo D.Castronuovo, Jorge M.Campagnolo and Roberto Salgado, “New versions of interior point methods applied to the optimal power flow problem”, Proceedings of the IEEE/PES T&D, March 18 to 22 2002, Latin America.
[9]. Marcos J.Rider, V.Leonardo Paucar, Ariovaldo V.Garcia and Manfred F.Bedrinana, “A Higher order Interior point method to minimize active power loss in electric energy systems”, IEEE Power Engineering, Large Engineering Systems conference, pp.189-193, 7-9 May 2003.
[10]. M.A.Abido, “Multiobjective Particle Swarm Optimization for optimal power flow problem”, IEEE Power systems conference, MEPCON 2008, pp.392-396, 12-15 March 2008.
[11] . M.Anitha, S.Subramanian, “FDR PSO-based transient stability constrained optimal power flow solution for deregulated power industry”, Electic power components and systems, Vol.33, No.10, October, 2005.
[12] .D. Thukaram, L . Jenkins and K .Visakha , “Improvement of system security with unified power flow controller at suitable locations under network contingencies of interconnected systems”, IEEE proceedings online no.20045235.
[13]. K.Visakha, D.Thukaram and Lawrance Jenkins, “Fuzzy logic approach for composite criteria based network contingency ranking”, Engineering Intelligent Systems for Electrical Engineering and Communications, Vol.15, No.4, p.p.205-212, 2007
[14]. Q.H.Wu, J.T.Ma, “Power system optimal reactive power dispatch using evolutionary programming” IEEE Transactions on Power Systems, Vol.10, No.3, August, 1995.
[15]. Hirotaka Yoshida, Yoshikazu Fukuyama, “A particle swarm optimization for reactive power and voltage control considering voltage security assessment”, IEEE Trans. on Power Systems, Vol.15, No.4, Nov, 2001.
[16]. Xino-Ping Zhang, “Advanced modeling of the multi control functional static synchronous compensator”, IEEE Transactions on Power Systems, Vol.18, No.4, November, 2003.
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