Reduction of SSR oscillations in power system network with STATCOM and UPFC

  • Authors

    • J Sreeranganayakulu
    • G V. Marutheswar
    • P Sujatha
    2018-03-19
    https://doi.org/10.14419/ijet.v7i2.8.10542
  • Flexible AC Transmission Systems, SSR, STATCOM, UPFC.
  • SSR is a complex issue in electric power transmission network because of which the mechanical arrangement of a multi mass model encounters shaft harms. To keep away from this issue the mechanical oscillations which for the most part happen amid a balanced short circuit fault on the transmission network ought to be moderated by a few means. This paper delineates about the IEEE second benchmark framework which is demonstrated and simulated in MATLAB Simulink. The outcomes are compared when Static Synchronous Compensator (STATCOM) is incorporated and furthermore with those when Unified Power Flow Controller (UPFC) included for their viability in moderating the Subsynchronous Resonance motions. 

  • References

    1. [1] IEEE SSR working group, “proposed terms and definitions for sub synchronous resonance,†IEEE symposium on countermeasures for sub synchronous resonance, IEEE Pub.81TH0, p086-9 PWR,1981 p 92-97.

      [2] IEEE SSR working group,â€First benchmark model for computer simulation of sub synchronous resonance“. IEEE transactions on power apparatus and systems, vol. PAS-96, pp. 1565-1572,September/october 1977.

      [3] IEEE SSR working group,â€Second benchmark model for computer simulation of sub synchronous resonance “. IEEE transactions on power apparatus and systems, vol. PAS-104, pp. 1057-1066,may 1985.

      [4] Dr. Narendra Kumar, Sanjiv Kumar and Vipin Jain, “Damping Sub synchronous Oscillations In power system using shunt and series connected FACTS controllersâ€, IEEE transactions on power delivery, vol.2, Sep 2010.

      [5] P.M. Anderson, B.L. Agrawal, J.E. Van Ness, “Sub synchronous Resonance in Power Systemsâ€, IEEE Press, New York, 1990, pp.31-93.

      [6] N.G. Hingorani & L. Gyugyi, â€Understanding of FACTSâ€, IEEE Press.

      [7] J.Guo, M.L.Crow, J.Sarangapani “An improved UPFC Control for Oscillation Damping†IEEE Transactions on Power Systems, Vol. 24,No. 1, Feb. 2009,pp.288-296.

      [8] J.Sreeranganayakulu, N.Chinna Alluraiah, “Simulation of first benchmark model for analysis of sub synchronous resonance in power systems using SEQUELâ€, IJERA ISSN: 2248-9622, Dec 2011.

      [9] J.Sreeranganayakulu, Dr.G.V.Marutheswar, Dr.K.S.R. Anjaneyulu, “Mitigation of Subsynchronous Resonance oscillations using UPFCâ€, Global Journal of Trends in Engineering, Vol.2, Issue.3, March 2015.

      [10] R. Kalaivani, K. Ramash Kumar, S. Jeevananthan, “Implementation of VSBSMC plus PDIC for Fundamental Positive Output Super Lift-Luo Converter,†Journal of Electrical Engineering, Vol. 16, Edition: 4, 2016, pp. 243-258.

      [11] K. Ramash Kumar,â€Implementation of Sliding Mode Controller plus Proportional Integral Controller for Negative Output Elementary Boost Converter,†Alexandria Engineering Journal (Elsevier), 2016, Vol. 55, No. 2, pp. 1429-1445.

      [12] P. Sivakumar, V. Rajasekaran, K. Ramash Kumar, “Investigation of Intelligent Controllers for Varibale Speeed PFC Buck-Boost Rectifier Fed BLDC Motor Drive,†Journal of Electrical Engineering (Romania), Vol.17, No.4, 2017, pp. 459-471.

      [13] K. Ramash Kumar, D.Kalyankumar, DR.V.Kirbakaran†An Hybrid Multi level Inverter Based DSTATCOM Control, Majlesi Journal of Electrical Engineering, Vol. 5. No. 2, pp. 17-22, June 2011, ISSN: 0000-0388.

      [14] K. Ramash Kumar, S. Jeevananthan, “A Sliding Mode Control for Positive Output Elementary Luo Converter,†Journal of Electrical Engineering, Volume 10/4, December 2010, pp. 115-127.

      [15] K. Ramash Kumar, Dr.S. Jeevananthan,†Design of a Hybrid Posicast Control for a DC-DC Boost Converter Operated in Continuous Conduction Mode†(IEEE-conference PROCEEDINGS OF ICETECT 2011), pp-240-248, 978-1-4244-7925-2/11.

      [16] K. Ramash Kumar, Dr. S. Jeevananthan,†Design of Sliding Mode Control for Negative Output Elementary Super Lift Luo Converter Operated in Continuous Conduction Modeâ€, (IEEE conference Proceeding of ICCCCT-2010), pp. 138-148, 978-1-4244-7768-5/10.

      [17] K. Ramash Kumar, S. Jeevananthan, S. Ramamurthy†Improved Performance of the Positive Output Elementary Split Inductor-Type Boost Converter using Sliding Mode Controller plus Fuzzy Logic Controller, WSEAS TRANSACTIONS on SYSTEMS and CONTROL, Volume 9, 2014, pp. 215-228.

      [18] N. Arunkumar, T.S. Sivakumaran, K. Ramash Kumar, S. Saranya, â€Reduced Order Linear Quadratic Regulator plus Proportional Double Integral Based Controller for a Positive Output Elementary Super Lift Luo-Converter,†JOURNAL OF THEORETICAL AND APPLIED INFORMATION TECHNOLOGY, July 2014. Vol. 65 No.3, pp. 890-901.

      [19] Arunkumar, T.S. Sivakumaran, K. Ramash Kumar, “Improved Performance of Linear Quadratic Regulator plus Fuzzy Logic Controller for Positive Output Super Lift Luo-Converter,†Journal of Electrical Engineering, Vol. 16, Edition:3, 2016, pp. 397-408.

      [20] S.V.Manikanthan and V.Rama“Optimal Performance of Key Predistribution Protocol In Wireless Sensor Networks†International Innovative Research Journal of Engineering and Technology ,ISSN NO: 2456-1983,Vol-2,Issue –Special –March 2017.

      [21] T. Padmapriya and V. Saminadan, “Inter-cell Load Balancing Technique for Multi- class Traffic in MIMO - LTE - A Networksâ€, International Conference on Advanced Computer Science and Information Technology , Singapore, vol.3, no.8, July 2015.

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    Sreeranganayakulu, J., V. Marutheswar, G., & Sujatha, P. (2018). Reduction of SSR oscillations in power system network with STATCOM and UPFC. International Journal of Engineering & Technology, 7(2.8), 603-611. https://doi.org/10.14419/ijet.v7i2.8.10542