Incorporation of SVS CBVLC Supplementary Controller for Damping SSR in Power System
Authors: Narendra Kumar, Sanjiv Kumar
Abstract:
Static VAR System (SVS) is a kind of FACTS device which is used in power system primarily for the purpose of voltage and reactive power control. In this paper presents a systematic approach for designing SVS supplementary controller, which is used to improve the damping of power system oscillation. The combined bus voltage and line current (CBVLC) supplementary controller has been developed and incorporated in the SVS control system located at the middle of the series compensated long transmission line. Damping of torsional stresses due to subsynchronous resonance resulting from series capacitive compensation using CBVLC is investigated in this paper. Simulation results are carried out with MATLAB/Simulink on the IEEE first benchmark model (FBM). The simulation results show that the oscillations are satisfactorily damped out by the SVS supplementary controller. Time domain simulation is performed on power system and the results demonstrate the effectiveness of the proposed controller.
Keywords: Bus voltage and line current (BVLC), series compensation, sub synchronous resonance (SSR), supplementary controller, eigenvalue investigation.
Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1094629
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[1] N. G. Hingorani and L. Gyugyi, "Understanding FACTS: Concepts and Technology of Flexible AC Transmission Systems”, IEEE Press, New York, 2000.
[2] Y.H. Song and A.T. Johns, eds, "Flexible AC Transmission Systems (FACTS)”, IEE Press, U.K., 1999.
[3] IEEE SSR Working Group,"Countermeasures to Subsynchronous Resonance Problems ”, IEEE Transactions on Power Apparatus and Systems, 1980,Vol. PAS-99, No. 5,pp.1810-1816.
[4] K.R. Padiyar and R.K. Varma, "Static Var System Supplementary Controller for Damping Torsional Oscillations,” International Journal of Power and Energy Systems, Oct. 1990,Vol. 12, No. 4, pp.271-286.
[5] K.R. Padiyar and R.K. Varma, "Damping Torque Analysis of Static Var System Controllers", IEEE Transactions on Power Systems, May 1991,Vol. 6, No. 2,pp.458-465.
[6] K.R. Padiyar, "Facts Controllers in Power Transmission and Distribution”, New Delhi: New Age Publication, 2007.
[7] P.M. Anderson, B.L. Agrawal, J.E. Van Ness, "Subsynchronous Resonance in Power Systems”, IEEE Press,New York, 1990.
[8] IEEE Subsynchronous Resonance Working Group, "Terms Definitions and Symbols for Subsynchronous Oscillations”, IEEE Trans. Power Apparatus and Systems,1985 , Vol. 5, No. 6,pp.1326-1334.
[9] IEEE Committee Report, "Reader’s Guide to SubsynchronousResonance”,IEEE Trans. on Power Systems., Feb. 1992,vol. 7, no. 1,pp.150-157.
[10] IEEE Torsional Issues W.G., "Fourth supplement to a Bibliography for the Study of Subsynchronous Resonance between Rotating Machines and Power Systems”, IEEE Transactions on Power Systems, Aug. 1997,Vol. 12, No. 3,pp.1276-1282.
[11] K.R. Padiyar, "Analysis of Subsynchronous Resonance in Power System”, Kluwer Academic Publishers, Boston, 1999.
[12] R.M. Mathur and R.K. Varma, "Thyristor-Based FACTS Controllers for Electrical Transmission Systems”, IEEE Press and John Wiley & Sons, New York, USA, Feb. 2002.
[13] A. Ghorbani, B. Mozaffari,A.M. Ranjbar, "Application of subsynchronous damping controller (SSDC) to STATCOM”, Electrical Power and Energy Systems , Dec. 2012,Vol.43,Issue 1,pp.418-426.
[14] IEEE Special Stability Control Working group,"Static VAR Compensator Models For Power Flow and Dynamics Performance Simulation”, IEEE Trans. Power Syst., 1984, 9 (1) ,pp. 229-240.
[15] IEEE SSR Task Force, "First benchmark model for computer simulation of subsynchronous resonance”, IEEE Trans. on PAS, Sep.-Oct. 1977, vol. PAS-96,pp.1565-1572,.
[16] N. Kumar, "Development of a new scheme for damping torsional modes in a series compensated power system”,Journal of IE(I),2006, vol. 87,pp.23-28.
[17] Fouad A. A. and Khu K. T., "Damping of torsional oscillations in power systems with series compensated lines”, IEEE Trans. on PAS,1978 , vol. PAS 97, No. 3,pp.744-753.
[18] Edris Abdel-Aty,"Series compensation schemes reducing the potential of sub synchronous resonance”, IEEE Transaction on Power Systems,1990, vol. 5, No. 1,pp.219-226.
[19] E. Lerch, D. Povh, and L. Xu, "Advanced SVC control for damping power system oscillation”, IEEE Trans. Power Systems”, 1991,vol. 6, No. 2,pp.524–535.
[20] R.S. Ramsaw, K.R. Padiyar, "Generalized System Model for Slip Ring Machines”, IEE Proc.,Part C,1973,Vol.120,No. 6,pp.647-658.
[21] R.K. Varma, A. Moharana, "SSR in Double-Cage Induction Generator-Based Wind Farm Connected to Series-Compensated Transmission Line”,IEEE transactions on power systems, 2013,Vol. 28, No. 3,pp.2573-2583.
[22] S.K. Gupta, Narendra Kumar, A.K. Gupta, "Damping subsynchronous resonance in power systems”, IEE Proc. on Generation, Transmission, and Distribution,2002,vol. 149, No.6,pp.679-688.
[23] Narendra Kumar, M.P. Dave, "Application of static VAR system supplementary controllers to improve the transient performance of series compensated long transmission lines”, Electric Power Systems Research,1995, 34,pp.75-83.
[24] P.Kundur, "Power System Stability andControl”, McGraw Hill Inc, 1994.
[25] Narendra Kumar, "Damping SSR in a series compensated power system”, IEEE Proc. of Power India Conference, New Delhi, 2006.
[26] Narendra Kumar, M.P. Dave, "Application of supplementary controlled static var system for damping sub synchronous resonance in power systems”, Electric Power System Research, 1996, 37, pp.189–201.
[27] N. Kumar, "A SVS control strategy for damping torsional oscillations due to SSR in a series compensated power system”, IE (I) Journal-EL,2011 ,Vol.-91,pp.9-17.
[28] A. E. Hammad and M. El-Sadek, "Application of a Thyristor Controlled VAR Compensator for Damping Subsynchronous Oscillations in Power Systems”,IEEE Trans. on Power Apparatus and Systems, Jan. 1984, vol. PAS-1-3, no. 1,pp.198-212.
[29] A. E. Hammad, "Analysis of power system stability enhancement by static var compensators”, IEEE Trans. Power Systems,1986, vol. PWRS-1, No. 4,pp.222–227.