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Investigation of Multi-Objective Optimal Power Flow Problem in Power System

K.Rajalashmi*, S.U.Prabha**
* Department of Electrical and Electronics Engineering, Bannari Amman Institute of Technology, Sathyamangalam, India
** Department of Electrical and Electronics Engineering, Sri Ramakrishna Engineering College, Coimbatore, India
Periodicity:February - April'2015
DOI : https://doi.org/10.26634/jps.3.1.3356

Abstract

In this paper, particle swarm optimization technique is proposed for Multi-Objective Optimal Power Flow problem. Various optimization techniques are applied to solve the power flow problem with cost, loss and voltage stability objectives in the literature. In this paper, particle swarm optimization technique is proposed to optimize the objectives of Cost, Transmission Loss, Voltage Variation, Voltage Stability Index, Power Mismatch and Maximum Loadability in multimode and analysis of the power flow problem is done in detail. This proposed approach has been evaluated on the standard IEEE 30 bus test system and simulated using MATLAB 8.1.

Keywords

 Cost, Loss, Voltage Stability Index, Loadability, Optimization

How to Cite this Article?

 Rajalashmi, K., and Prabha, S. U. (2015). Investigation of Multi-Objective Optimal Power Flow Problem in Power System. i-manager’s Journal on Power Systems Engineering, 3(1), 23-28. https://doi.org/10.26634/jps.3.1.3356

References
[1]. Stephen Frank, Ingrida steponavice, steffen rebennac, (2012). “Optimal power system flow a bibliographic survey II”, Energy system.
[2]. M.R. Alrlrashidi, M.E. El-Hawary, (2009). “Application of computational intelligence techniques for solving the revised optimal power flow problem”, Electrical power system research, Vol.79.
[3]. P.W. Sauer, R.J. Evans and M.A. Pai, (1990). "Maximum Unconstrained Loadability of Power Systems", IEEE International Symposium on Circuits and Systems, Vol. 3, pp. 1818 - 1821.
[4]. C.G. Melo, S. Granville, J.C.0. Mello, A.M. Oliveira, C.R.R. Dornellas and J.0. Soto, (1999). "Assessment of Maximum Loadability in a Probabilistic Framework", in Proceedings IEEE Power Engineering Society Winter Meeting, pp. 263 – 268.
[5]. T.V. Cutsem, C. Moisse and R. Mailhot, (1999). "Determination of secure Operating Limits with Respect to Voltage Collapse", IEEE Transaction on Power Systems, Vol. 14, pp. 327 - 335.
[6]. G.D. Irrisari, X. Wang, J. Tong and S. Mokhtari, (1997). "Maximum Loadability of Power Systems Using Interior Point Non-Linear Optimization Method", IEEE Transaction on Power Systems, Vol. 12, No. 1, pp. 162- 172.
[7]. Y.H. Moon, B.K. Choi and B.H. Cho, (1999). "Estimation of Maximum Loadability in Power Systems by Using Elliptic Properties of p-e Curve", in Proceedings IEEE Power Engineering Society Winter Meeting, Vol. 1, pp. 677 - 682.
[8]. Z. Yao and S. Wennan, (1993). "Power System Static Voltage Stability Limit and the Identification of Weak Bus", in Proceedings IEEE TENCON, pp. 157 -160.
[9]. Burchet, R.C., Happ, H.H., Vierath, D.R. (1984). 'Quadratically convergent optimal power flow', IEEE Trans. Power Appar. Syst., Vol.103(11), pp. 3267–3276.
[10]. Yan, X., Quintana, V.H. (1999). “Improving an interior point based OPF by dynamic adjustments of step sizes and tolerances”, IEEE Trans. Power Syst., Vol.14(2), pp. 709–717.
[11]. W.Hua, H.Sasaki, J.Kubokawa and R.Yokoyama, (1998). “An interior point non linear programming for optimal power flow problem with a novel data structure”, IEEE Trans. Power Systems, Vol.13, No.3, pp.870-877.
[12]. M.A. Abido, (2002). “Optimal power flow using particle swarm optimization”, Electrical power & Energy system, Vol.24.
[13]. Prabha Umapathy, C. Venkataseshiah and M. Senthil Arumugam, (2010). “Particle Swarm Optimization with Various Inertia Weight Variants for optimal power flow solution”, Discrete Dynamics in Nature and Society, USA, pp.1-16
[14]. T. Niknam, M.R. Narimani, J. Aghaei and R. Azizipanah-Abarghooee, (2012). “Improved particle swarm optimisation for multi-objective optimal power flow considering the cost, loss, emission and voltage stability index”, IET Generation, Transmission & Distribution, Vol.6, Iss. 6, pp.515-527.
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