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When electrical network exchanges energy with a turbine generator at one or more natural frequencies, below the synchronous frequency of the system, the phenomena is called subsynchronous resonance. The interaction can bring the mechanical frequency of the shaft of the generator coinciding with a disturbing frequency, resulting is shaft damage and disturbing stresses. Much advancement in technology has taken place to mitigate SSR due to series compensation of HV transmission lines. The ASD and HVDC systems converter cascades can also give rise to SSR, as described in this paper, with appropriate EMTP simulations
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Subsynchronous Resonance; NGH-SSR Scheme; Thyristor Controlled Series Capacitor (TCSC); EMTP Simulations

IEEE Committee Report, First Benchmark Model for Computer Simulation of Subsynchronous Resonance, IEEE Trans. PAS-96, 1977, pp. 1565-1570

IEEE Committee Report, Second Benchmark Model for Computer Simulation of Subsynchronous Resonance, IEEE Trans. PAS-104, 1985, pp. 1057-66

N.G. Hingorani. A New Scheme for Subsynchronous Resonance Damping of Torsional Oscillations and Transient Torques—Part I IEEE Power Engineering Review, vol. per-1, 1981, pp.56-57

R.A. Hedin, K.B. Stump, N.G. Hingorani, A New Scheme for Subsynchronous Resonance Damping of Torsional Oscillations and Transient Torques—Part II IEEE Trans. PAS-100, 1981, pp. 1856-1863

M.S. El-Moursi, V. Khaddikar, Novel Control Strategies for SSR Mitigation and Damping Power System Oscillations in a Series Compensated Wind Park, 38th Annual Conference on IEEE Industrial Electronics Society, 2012, pp 5335-5342.

Hooshmand, R., Azimi, M., Investigation of dynamic instability of torsional modes in power system compensated by SSSC and fixed capacitor, (2009) International Review of Electrical Engineering (IREE), 4 (1), pp. 129-138.

Y.Lu, A. Abur, Improved System Static Security Via Optimal Placement of Thyristor Controlled Series Capacitors (TCSC), IEEE Power Engineering Society Winter Meeting, Columbus, Ohio, 2001, pp. 516-521.

L. Gyugyi, A Solid State Approach to the Series Compensation of Transmission Lines, IEEE Trans. Power Delivery, vol. 12, no.1, Jan 1997, pp.406-417.

Khalilinia, H., Ghaisari, J., Sub-synchronous resonance damping in total variation ranges of operating conditions using a STATCOM, (2009) International Review of Electrical Engineering (IREE), 4 (1), pp. 94-101.

K.K. Sen. SSSC-Static Condenser Series Compensator: Theory Modeling and Applications. IEEE Trans. Power Delivery, vol.13, no.1, January 1998 pp.241-246

D.H. Baker, G.E. Boukarim, R.D’Aquila and R.J. Piwko. Subsynchronous Resonance Studies and Mitigation Methods for Series Capacitor Applications, IEEE PES Conference and Exposition in Africa, Durban, July 2005, pp.386-392.

D. Rai, S.O. Farid, G. Ramakrishna, and A, Edris, ASSSC-based Hybrid Series Compensation Scheme Capable of Damping Subsynchronous Resonance, IEEE Trans. Power Delivery, vol.17, no.2, April 2012. pp. 531-540.

Eslami, M., Shareef, H., Mohamed, A., Khajehzadeh, M., Damping of power system oscillations using genetic algorithm and particle swarm optimization, (2010) International Review of Electrical Engineering (IREE), 5 (6), pp. 2745-2753.

N. Prabhu, M.Janki, and M. Thirumalaivasan, Damping of Subsynchronous Resonance by Subsynchronous Current Injector with STATCOM, TENCON, New Delhi, 2009, pp.1-6

T. Yi, Y. Rui-quin, Mechanism Analysis of Using Thyristor Controlled Series Compensation to Mitigate Subsynchronous Resonance, Proceedings of 3rd Conference on Thermal Power Plants, (CTPP), 2011, pp.1-5.

R. Bazyar, M.R. Javadi, A. Ghasemi, and A. Yusefi, Analysis and Study Subsynchronous Resonance (SSR) in Tabriz Thermal Power Plant Using Thyristor Controlled Series Compensator. Proceedings IPEC Conference, Singapore, 2010, pp. 1094-1099.

P.M. Anderson, B.L. Agarwal, J.E. Van Ness. Subsynchronous Resonance in Power Systems, (IEEE Press, New York, 1990).

K.R. Padiyar, Analysis of Subsynchronous Resonance in Power Systems (Power Electronics and Power Systems), (Kluwar Academic Publishers, Norwell, Massachusetts, 1998)

J.C. Das, Transients in Electrical Systems-Analysis, Recognition and Mitigation, (McGraw-Hill, New York, 2010).

M. Newby, R. Scheepers, Qualifications and Measurements of Grid Interaction Effects on Turo-Generator Sets. Proceedings of the 18th World Conference on Non-Destructive Testing, Durban, South Africa, April 2012.

IEEE C37.118.1, IEEE Standard for Synchrophasor Measurements for Power Systems, 2011.

K. Kabiri, H.W. Dommel, S. Henschel, A simplified System for Subsynchronous Resonance Studies, Proceedings of the International Conference on Power System Transients, Rio de Janeiro, Brazil, June 2001.

M. Elfayoumy, C.G. Moran, A Comprehensive Approach for Subsynchronous Resonance Screening Analysis Using Frequency Scanning Techniques” Proceedings of IEEE Power Tech Conference, Bologna, Italy, June 2003.

IEEE Task Force on Harmonic Modeling and Simulation, Interharmonics: Theory and Modeling, IEEE Trans. on Power Delivery, vol. 22,no. 4, Oct. 2007, pp. 2335-2348.

M.B. Rifai, T.H. Ortmeyer and W. J. McQuillan, Evaluation of Current Interharmonics from AC Drives, IEEE Trans. Power Delivery, vol. 15, no.3, July 2000, pp. 1094-1098.

R. Yacamini, Power System Harmonics-Part 4, Interharmonics, IEE Power Engineering Journal, Aug. 1996, pp. 185-193.

J.D. Anisworth. Non-Characteristic Frequencies in AC/DC Converters, International Conference on Harmonics in Power Systems, UMIST, Manchester 1981, pp. 76-84.

L. Hu and R. Yacamini, Harmonic Transfer Through Converters and HVDC links, IEE Transactions, PE-7, (3) 1992, pp. 514-525

Rahmani, K., Naderi, M.S., Gharehpetian, G.B., Naderi, M.S., Karrari, M., Damping of low frequency oscillation in AC/DC interconnected power system using LQG/LTR controller approach, (2010) International Review of Electrical Engineering (IREE), 5 (6), pp. 2795-2802.