A Study on the Transmission Line Transient Protection Containing Static Synchronous Compensator

Abstract

This paper focuses on the transient protection of transmission line with FACTS Devices; the principle and mathematical model of static synchronous compensator (STATCOM) has been analyzed. And feasible control strategy has been proposed considering the voltage source inverter (VSI) as a core part of the FACTS components. The simulation results verify the rightness using electromagnetic transient simulation software PSCAD/EMTDC to set up electromagnetic transient model.

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K. Liu, T. Liu, H. Shu and J. Yu, "A Study on the Transmission Line Transient Protection Containing Static Synchronous Compensator," Energy and Power Engineering, Vol. 5 No. 4B, 2013, pp. 1192-1197. doi: 10.4236/epe.2013.54B226.

Conflicts of Interest

The authors declare no conflicts of interest.

References

[1] Q. Liu, “Research on Several Important Issues of Transmission Line Protection with Facts Devices,” Baoding, 2010.
[2] P. Petieclair, Y. Besanger, S. Bacha, etal., Facts Modeling and Control: Applications to the Insertion of a STATCOM on Power System,” IEEE Industry Applications Society Annual Meeting, New Orleans, Louisiana, October, 1997.
[3] S. Jamali, A. Kazemi, H. Shateri, “Comparing Effects of SVC and STATCOM on Distance Relay Tripping Characteristic,” IEEE 2008, pp.1568-1573.
[4] Z. J. Wu, “Research on Distance Relay in the Presence of STATCOM,” Electronics, Beijing, North China electric power university, No.4, 2003.
[5] J. L. He, “Present State and Development Prospects of Power System Relay Protection,” China power press, Vol. 32, No.10, 1999, pp.38-40.
[6] B. H. Zhang, X. G. Yin, Power System Relay Protection,” Beijing: China power press, 2005.
[7] J. L. He, Y. Z. Ge, “Ehv Transmission Line Fault Analysis and Relay Protection,” Beijing: science press, June, 1987.
[8] Y. Z. Ge, “New Relay Protection and Fault Distance Principle and Technology,” Xi 'an: Xi 'an Jiao Tong university press, 1996.
[9] Y. Zhang, Q. Liu, Z. P. Wang, “Analysis of Harmonics and Effect with STATCOM in the Transmission Line Protection,” Journal of north China electric power university, Vol. 36, No.5, 2009, pp.27-31.
[10] W. Chen, “Study on Simulation of Extra High Voltage Transmission Line Protective Relay and Development of Transmission Line Longitudinal Protective Relay,” Wuhan: Huazhong university of science and technology, 2004.
[11] M. Zhang, “The research on Transmission line transient quantity high-speed protection. Electronics,” Kun Ming. Kunming university of science and technology, 2011.
[12] A. T. Johns, R. K. Aggarwal, Z. Q. Bo, “Non-unit Protection Technique for EHV Transmission Systems Based on Fault-generated Noise Part1 Signal Measurement,” IEEE Proceedings Generation Transmission Distribution, Vol. 141, No. 2, 1994, pp. 133-140. doi:10.1049/ip-gtd:19949790
[13] R. K. Aggarwal, A. T. Johns, Z. Q. Bo, Non-unit Protection Technique for EHV Transmission Systems Based on Fault-generated Noise Part2 Signal Processing,” IEEE Proceedings Generation Transmission Distribution, Vol. 141, No. 2, 1994, pp.141-147. doi:10.1049/ip-gtd:19949791
[14] J. Arrillaga, N. R. Watson, “Power System Harmonics,” Beijing: China power press, 2008.
[15] J. D. Duan, B. H. Zhang, J. F. Ren, “A Novel Method of Transient Protection for Shunt Compensated Lines Based on HHT Spectrum Analysis,” Transactions of China Electrotechnical Society, Vol. 27, No. 1, 2007, pp.37-43.

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