Journal of Electrical Engineering and Technology

The Korean Institute of Electrical Engineers (대한전기학회)
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Setting Considerations of Distance Relay for Transmission Line with STATCOM

  • Received : 2009.09.26
  • Accepted : 2010.07.26
  • Published : 2010.11.01
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Abstract

Distance relay plays an important role in the protection of transmission lines. The application of flexible AC transmission systems (FACTS) devices, such as the static synchronous compensator (STATCOM), could affect the performance of the distance relay because of compensation effect. This paper analyzes the application of distance relay on the protection of a transmission line containing STATCOM. New setting principles for different protection zones are proposed based on this analysis. A typical 500 kV transmission system employing STATCOM is modeled using Matlab/Simulink. The impact of STATCOM on distance protection scheme is studied for different fault types, fault locations, and system configurations. Based on simulation results, the performance of distance relay is evaluated. The setting principle can be verified for the transmission line with STATCOM.

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References

  1. N. G. Hingorani and L. Gyugyi, “Understanding FACTS: Concepts & Technology of Flexible AC Transmission Systems.” New York: Wiley, 1999.
  2. Y. H. Song and A. T. Johns, “Flexible AC Transmission Systems,” IEE Press, 1999.
  3. M. Adamiak and R.Patterson, “Protection requirements for flexible AC transmission system,” in Proc.CIGRE, Paris, France 1992.
  4. T.S.Sidhu, R.K,Varma, “Performance of Distance Relay on Shunt-FACTS Compensated Transmission Lines,” IEEE Transactions on Power Delivery, Vol. 20, No. 34, July. 2005.
  5. T.S.Sidhu, R.K, Varma, “Performance Comparison of Distance Protection Schemes for Shunt-FACTS Compensated Transmission Lines,” IEEE Transactions on Power Delivery, vol.22, no.4, October. 2007.
  6. Khahil El-Arroudi...“Operation of Impedance Protection Relays with STATCOM,” IEEE Transctions on Power Delivery, Vol.17, No.2, April. 2002.
  7. P.K. Dash., A.K. Pradhan, , G. Panda, , A.C. Liew, “Adaptive relay setting for flexible AC transmission systems (FACTS),” IEEE Transactions on Power Delivery, Vol.15 Issue.1, pp.38-43, Jan.2000. https://doi.org/10.1109/61.847226
  8. X.Y Zhou, H.F Wang, R.K Aggarwal, P.Beaumont, “The Impact of STATCOM on Distance Relay,” 15th PSCC, Liege, 22-26 August. 2005.
  9. M, Khederzadeh “The impact of FACTS device on digital multifunctional protective relays”, Transmission and Distribution Conference and Exhibition 2002: Asia Pacific. IEEE/PES , Vol. 3, 6-10 pp.2043-2048, Oct. 2002. https://doi.org/10.1109/TDC.2002.1177775
  10. Static Synchronous Compensator (Phasor Type). SimPowerSystem, Matlab/Simulink.
  11. G. Sybille, Le-Huy. Hoang “Digital simulation of power systems and power electronics using the MATLAB/Simulink Power System Blockset,” Power Engineering Society Winter Meeting, 2000. IEEE, Vol.4, pp.2973-2981, 23-27, Jan. 2000.
  12. W. H. Zhang, S. J. Lee, M. S. Choi, “Protectability Evaluation of Distance Relay based on a Probabilistic Method for Transmission Network,” Proceeding of the 40th the KIEE Summer Conference 2009.
  13. A. G. Phadke, M. lbrahim, T. Hblika, “Fundamental Basis for Distance Relaying with Symmetrical Components,” IEEE Transactions on Power Apparatus and Systems, pp. 635-676, March/April, 1977.
  14. V.Cook, “Analysis of Distance Protection,” Research Studies Press LTD, Letch worth, Hertfordshire, England, 1985.

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