Comparison of SVC and STATCOM in Static Voltage Stability Margin Enhancement
Authors: Mehrdad Ahmadi Kamarposhti, Mostafa Alinezhad
Abstract:
One of the major causes of voltage instability is the reactive power limit of the system. Improving the system's reactive power handling capacity via Flexible AC transmission System (FACTS) devices is a remedy for prevention of voltage instability and hence voltage collapse. In this paper, the effects of SVC and STATCOM in Static Voltage Stability Margin Enhancement will be studied. AC and DC representations of SVC and STATCOM are used in the continuation power flow process in static voltage stability study. The IEEE-14 bus system is simulated to test the increasing loadability. It is found that these controllers significantly increase the loadability margin of power systems.
Keywords: SVC, STATCOM, Voltage Collapse, Maximum Loading Point.
Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1080530
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[1] V. Ajjarapu and C. Christy,"The continuation power flow: A tool for steady state voltage stability analysis, " IEEE Trans. on Power Systems, vol. 7, no. 1, pp.426-423, Feb. 1992.
[2] Arthit Sode-Yome, Nadarajah Mithulananthan and Kwang Y. Lee, "Static Voltage Stability Margin Enhancement Using STATCOM, TCSC and SSSC," IEEE/PES Transmission and Distribution Conference & Exhibition, Asia and pacific, Dalian Chine, 2005.
[3] Blackout of 2003: Description and Responses, Available: http://www.pserc.wisc.edu/.
[4] R. Natesan and G. Radman," Effects of STATCOM, SSSC and UPFC on Voltage Stability," Proceedings of the system theory thirty- Sixth southeastern symposium, 2004, pp. 546-550.
[5] Dobson and H. D. Chiang, "Towards a theory of Voltage collapse in electric power systems," Systems& Control Letters, vol. 13, 1989, pp. 253-262.
[6] C. A. Canizares, F. L. Alvarado, C. L. DeMarco, I. Dobson, and W. F. Long, "Point of collapse methods applied to acldc power systems," IEEE Trans. Power Systems, vol. 7, no. 2, May 1992, pp. 673-683.
[7] C. A. Canlzares, Z. T. Faur, "Analysis SVC and TCSC Controllers in Voltage Collapse," IEEE Trans. Power Systems, Vol. 14, No. 1, February 1999, pp. 158-165.
[8] A. Kazemi, V. Vahidinasab and A. Mosallanejad," Study of STATCOM and UPFC Controllers for Voltage Stability Evaluated by Saddle-Node Bifurcation Analysis," First International Power and Energy Coference PECon/IEEE, Putrajaya, Malaysia, November 28-29, 2006.
[9] N. Talebi, M. Ehsan, S.M.T Bathaee, "Effects of SVC and TCSC Control Strategies on Static Voltage Collapse Phenomena, " IEEE Proceedings, SoutheastCon, pp. 161 - 168, Mar 2004.
[10] C. A. Canizares,. "Power Row and Transient Stability Models of FACTS controllers. for Voltage and Angle Stability Studies," IEEE/PES WM Panel on Modeling, Simulation and Applicatfons of FACTS Controllers in Angle and Valtage Stability Studies, Singapore, Jan. 2000
[11] F. Milano, "Power System Analysis Toolbox," Version 1.3.4, Software and Documentation, July 14, 2005.