Damping of Oscillations in Series Compensated Power System through Wide Area Damping Controller of STATCOM

##plugins.themes.academic_pro.article.sidebar##

Published Oct 29, 2016
Download
PDF
Statistic

Downloads

Download data is not yet available.

Metrics

Metrics Loading ...
Volume 12, Issue 4, December 2016

##plugins.themes.academic_pro.article.main##

Vipin Jain
Electrical Engineering Department, Bharat Institute of Technology, Meerut - 250103
Narendra Kumar
Professor, Electrical Engineering Department, Delhi Technological University, Delhi - 110042

Abstract

In FACTS devices auxiliary signals are widely used to enhance damping and mitigation of Subsynchronous Resonance in Power System. Choice of auxiliary signal is indeed a difficult choice. Auxiliary signal may be local signal or remote signal. In this paper STATCOM is installed in the middle of Power system and it is shown that deviation in speed of generator rotor is one of the most suitable auxiliary signal. This signal is a remote signal hence a suitable time delay is considered. Study system is IEEE first benchmark model. Modeling of STATCOM with IEEE first benchmark model is presented in detail. All the differential equations and initial conditions are presented in the paper. Both, small signal and large signal stabilities are carried out.

##plugins.themes.academic_pro.article.details##

How to Cite
Jain, V., & Kumar, N. (2016). Damping of Oscillations in Series Compensated Power System through Wide Area Damping Controller of STATCOM. Power Research - A Journal of CPRI, 753–763. Retrieved from https://cprijournal.in/index.php/pr/article/view/168

References

  1. K R Padiyar, FACTS Controllers in Power Transmission and Distribution, New Age International Publishers, Delhi, pp. 105-115, 2009.
  2. R M Mathur and R K Varma, Thyristor Based FACTS Controllers for Electrical Transmission Systems, John Wiley & sons, IEEE press, pp. 277-287 2002.
  3. P Kundur, Power System Stability and Control, McGraw-Hill, New York, pp. 1103-1125 1993.
  4. R Satija, Damping Subsynchronous Resonance in Power System using Static VAR system, PhD dissertation, University of Delhi, Delhi, 2007.
  5. J S Gasca, Coordinated Control of Two FACTS Devices for Damping Inter Area Oscillations, IEEE Trans. PS, Vol. 13, pp. 428-434, 1998.
  6. N Kumar and M P Dave, Application of supplementary controlled static VAR system for damping sub synchronous resonance in Power Systems, Electric Power Systems Research, Vol. 37, pp.189–201, 1996.
  7. K R Padiyar and R K Varma, Static var system auxiliary controllers for improvement of dynamic stability, International Journal of Electrical Power and Energy Systems, Vol. 12, pp. 287-297, 1990.
  8. K V Patil, J Senthil, J Jiang and R M Mathur, Application of STATCOM for damping torsional oscillations in series compensated AC systems, IEEE Transaction on Energy Conversion, Vol. 13, pp. 237-243, 1998.
  9. K V Patil, Dynamic compensation of Electrical Power systems using a New BVSI STATCOM, PhD dissertation, The University of Western Ontario, London, 1999.
  10. J J Gasca and J H Chow, Power System Reduction to Simplify the Design of Damping Controllers for Inter-Area Oscillations, IEEE Transactions on Power systems, Vol. 11, pp. 1342–1349, 1996.
  11. N Kumar and S Kumar, SSR Alleviation using BVLC Supplementary Controlled SVS of Series Compensated Power System, TELKOMNIKA Indonesian Journal of Electrical Engineering, Vol. 12, pp. 6551-6559, 2014.
  12. V Spitsa, A Alexandrovitz and E Zeheb, Design of a robust state feedback controller for a STATCOM using a zero set concept, IEEE Transactions on Power Delivery, Vol. 25, pp. 456–467, 2010.
  13. S K Gupta, A K Gupta and N Kumar, Subsynchronous Resonance in Power Systems, IEE proceedings- Generation, Transmission and Distribution, Vol. 149, No.6, pp. 679-688, 2002.
  14. N Kumar, V Jain and S Kumar, Comparison of Effectiveness of Auxiliary Signals Incorporated in STATCOM for improving Transient Performance of Power System, IEEE International conference on Power Electronics, Delhi Technological University, Delhi, pp. 1-5, 2012.
  15. V Jain and N Kumar, Mitigation of Subsynchronous Resonance in Power system through STATCOM and auxiliary controller, The Journal of CPRI, Vol. 10, pp. 239- 244, 2014.
  16. IEEE Subsynchronous Resonance Task Force, First benchmark model for computer simulation of subsynchronous resonance, IEEE Transactions on Power Apparatus and Systems, Vol. PAS-96, pp. 1565-1572, 1977.
  17. V Jain and N Kumar, Designing of supplementary controller for STATCOM for mitigation of subsynchronous resonance in series compensated power system, The Journal of CPRI, Vol. 10, pp. 641-652, 2014.
  18. V Jain and N Kumar, Effect of TCSC on power system stability, The Journal of CPRI, Vol. 11, pp. 641-650, 2015.
  19. D Rai, Damping Subsynchronous Resonance Using Static Synchronous Series Compensators and Static Synchronous Compensator, PhD dissertation, University of Saskatchewan, Canada, 2008.
  20. G Tang, Damping subsynchronous resonance oscillations using a VSC HVDC back-to-back system, dissertation, University of Saskatchewan, Saskatoon, Saskatchewan, 2006.