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Application of SSPSO and SPSO to Optimal Power Flow Solutions along with SSC Device


Affiliations
1 Department of Electrical and Electronics Engineering, Sir C R Reddy College of Engineering, Eluru – 534007, Andhra Pradesh, India
 

Objectives: In this study, optimization techniques SSPSO and SPSO are used to minimize the total generation cost and active power loss. Methods/Analysis: The power flow analysis gives the information of magnitude of voltages, phase angles and complex power flow at each bus. Optimal Power Flow (OPF) solutions with Static Series Compensator (SSC) FACTS device in the power system to increase the total power transfer. Fast Relative Electrical Distance (F-RED) method based on Simple-Voltage Stability Index (H-index) is used to find the maximum generation supplied to the load. Findings: Comparison was made on SSPSO and SPSO methods and SPSO with SSC gives better results. The H-index is used to judge the power system is stable or unstable. F-RED gives the information, the amount of generators contribution to satisfy the loads. Novelty/ Improvement: SSPSO gives better solution results than SPSO, the methods are applied on IEEE-30 bus system. H- INDEX and F-RED are calculated for the IEEE-5 bus system.
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  • Venikov VA, Stroev VA, Idelchick VI, Tarasov VI. Estimation of electric power system steady state stability in load flow calculations. IEEE Transactions on Power Apparatus and Systems. 1975 Jun; 94(3):1034–40. Crossref.

  • Perez-Londono S, Rodriguez LF, Olivar G. A Simplified Voltage Stability Index (SVSI). Electrical Power and Energy Systems. 2014 Dec; 63(2014):806–13.

  • Subramani C, Dash SS, Kumar MJ, Bhaskar MA. Stability index based voltage collapse prediction and contingency analysis. Journal of Electrical Engineering and Technology. 2009; 4(4):438–42. Crossref.

  • Thukaram D, Vyjayanthi C. Relative electrical distance concept for evaluation of network reactive power and loss contributions in a deregulated system. IET Institution of Engineering and Technology Generation, Transmission and Distribution. 2009; 3(11):1000–19. Crossref.

  • Li N, Xu Y, Chen H. FACTS-based power flow control in interconnected power systems. IEEE Transactions on Power Systems. 2000 Feb; 15(1):257–62. Crossref.

  • Hingaroni NG, Gyugyi L. Understanding FACTS: Concepts and technology of flexible AC transmission systems. IEEE Press, New-York; 2000. p. 1–452.

  • Kennedy J, Eberhart M. Particle swarm optimization. Proceedings of IEEE International Conference on Neural Networks; 1995 Dec. Crossref.

  • Abido MA. Optimal power flow using particle swarm optimization. Electrical Power Energy System. 2002; 24(7):563–71. Crossref.

  • Hayeghi H, Shayanfar HA, Shojaei A. An improved PSO based solution for the optimal power flow problems. University of Pitesti – Electronics and Computers Science Scientific Bulletin. 2008; 8(2):99–105.

  • Garg H, Pattnaik SS, Devi S, Bakwad KM, Panigrahiz BK, Das SK. Sliced Particle Swarm Optimization (SPSO): A computationally efficient optimization technique. World Congress on Nature and Biologically Inspired Computing (NABIC); 2009. p. 61–6. Crossref.


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  • Application of SSPSO and SPSO to Optimal Power Flow Solutions along with SSC Device

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Authors

D. Ganga Bhavani
Department of Electrical and Electronics Engineering, Sir C R Reddy College of Engineering, Eluru – 534007, Andhra Pradesh, India
N. Rama Narayana
Department of Electrical and Electronics Engineering, Sir C R Reddy College of Engineering, Eluru – 534007, Andhra Pradesh, India
R. Madhusudan
Department of Electrical and Electronics Engineering, Sir C R Reddy College of Engineering, Eluru – 534007, Andhra Pradesh, India

Abstract


Objectives: In this study, optimization techniques SSPSO and SPSO are used to minimize the total generation cost and active power loss. Methods/Analysis: The power flow analysis gives the information of magnitude of voltages, phase angles and complex power flow at each bus. Optimal Power Flow (OPF) solutions with Static Series Compensator (SSC) FACTS device in the power system to increase the total power transfer. Fast Relative Electrical Distance (F-RED) method based on Simple-Voltage Stability Index (H-index) is used to find the maximum generation supplied to the load. Findings: Comparison was made on SSPSO and SPSO methods and SPSO with SSC gives better results. The H-index is used to judge the power system is stable or unstable. F-RED gives the information, the amount of generators contribution to satisfy the loads. Novelty/ Improvement: SSPSO gives better solution results than SPSO, the methods are applied on IEEE-30 bus system. H- INDEX and F-RED are calculated for the IEEE-5 bus system.

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DOI: https://doi.org/10.17485/ijst%2F2018%2Fv11i23%2F119654