Small Signal Stability Enhancement of a Wind Energy Integrated Power System by UPFC Optimal Damping Controller

  • Authors

    • Narayan Nahak
    • Ranjan Kumar Mallick
    • Rajan Kumar Pandey
    • Md. Mumtazun Nabi
    • Dibyasha Panigrahi
    • Arup Samal
    2018-12-13
    https://doi.org/10.14419/ijet.v7i4.39.23961
  • FACTS, UPFC, dual PI controller, SMIB, VSC, small signal stability
  • This work presents a dual optimal PI controller based on UPFC for the purpose of enhancing stability of small signals of a power system integrated with wind energy source. The parameters of controller are tuned by PSO-GWO algorithm. System responses have been obtained with varying wind penetration to power system and for different operating conditions detail eigen value analysis is performed. The results predict that, variable wind power penetration deteriorates dynamic stability of power system and proposed UPFC controller can damp system oscillations much effectively ac compared to PSO and GWO optimized single PI controller

     

     

  • References

    1. [1] Shi, L.B.; Wang, C.; Yao, L.Z.; Wang, L.M.; Ni, Y.X. Analysis of impact of grid-connected wind power on small signal stability. Wind Energ. 2011, 14, 518–537.

      [2] Slootweg, J.G.; Kling, W.L. The impact of large scale wind power generation on power system oscillations. Electr. Power Syst. Res. 2003, 67, 9–20.

      [3] Sanchez-Gasea, J.J.; Miller, N.W.; Price, W.W. A Modal Analysis of a Two-Area System with Significant Wind Power Penetration. In Proceedings of the Power Systems Conference and Exposition, New York, NY, USA, 10–13 October 2004.

      [4] S.Lamichhane, N. Mithulanananthan. Possible impact of large scale wind energy integration on small signal stability. Power and Energy Engg. Conf(APPEEC), IEEE PES Asia-Pacific.Nov-2015

      [5] Zhang P, Messina AR, Coonick A, Cory BJ Selection of locations and input signals for multiple SVC damping controllers in large scale power systems. In:Proceedings of IEEE power engineering society winter meeting, paper IEEE-0-7803-4403-0, p. 667–70. 1998

      [6] Farsangi MM, Song YH, Lee KY(2004)Choice of FACTS devices control inputs for damping inter area oscillations. IEEE Trans Power Syst 19(2):1135–43.

      [7] Nahak N., Sahoo S.R., Mallick R.K., Small signal stability enhancement of power system by Modified GWO optimized UPFC based PI-lead-lag controller, SOCPROS, AISC springer, vol-817, 2019

      [8] Zhao Q, Jiang J, Robust SVC controller design for improving power system damping. IEEE Trans Energy Conver (10):201–9.1995

      [9] Martins N, Lima LTG, Determination of suitable locations for power system stabilizers and static VAR compensators for damping electromechanical oscillations in large scale power systems. IEEE Trans Power Syst,5:1455–69,1990.

      [10] Pourbeik P, Gibbard MJ, Damping and synchronizing torques induced on generators by FACTS stabilizers in multimachine power systems. IEEE Trans Power Syst.11:1920–5, 1996

      [11] Nahak N, Mallick R.K, “Enhancement of small signal stability of power system using UPFC based damping controller with novel optimized fuzzy PID controller†Journal of Intelligent & Fuzzy Systems, vol.35, no.1, 501-512, 2018.

      [12] R.K. Pandey, N.K. Singh, UPFC control parameter identification for effective power oscillation damping, Electrical Power and Energy Systems 31, 269–276,2009.

      [13] Wang HF,A unified model for the analysis of FACTS devices in damping power system oscillations – part III: unified power flow controller.IEEE Trans Power Deliver.15(3):978–83,2000

      [14] Taher SA, Hemmati R, Abdolalipour A, Akbari S. Comparison of different robust control methods in the design of decentralized UPFC controllers. Int J Electr Power Energy Syst2012;43:173–84.

      [15] N. Nahak, R.K. Mallick, Damping of power system oscillations by a novel DE-GWO optimized dual UPFC controller, Eng.Sci.Tech., Int. J. Volume 20, Issue 4(2017), pp 1275-1284.

      [16] Husam I. Shaheen, Ghamgeen I. Rashed, S.J. Cheng. Optimal location and parameter setting of UPFC for enhancing power system security based on Differential Evolution algorithm, Int J Electr Power Energy Syst 2011, 33: 94–105

      [17] Mallick, R.K., Nahak, N. Hybrid differential evolution particle swarm optimization (DE-PSO) algorithm for optimization of unified power flow controller parameters,IEEE, UPCON-IIT BHU- 2016, art. no. 7894729, pp. 635-640.

      [18] Rajendra Ku Khadanga ,Jitendriya Ku Satapathy, A new hybrid GA–GSA algorithm for tuning damping controller parameters for a unified power flow controller, Electrical Power and Energy Systems 73 (2015) 1060–1069

      [19] Nahak N, Bohidar S, Mallick R.K, “Investigation of UPFC based Damping controller parameter and a novel multi input dual controller with time delay for multi machine system by Grey-Wolf Optimizer†International review of automatic control. Vol 11, No 1 (2018)

      [20] Shayeghi H, ShayanfarHA,JalilzadehS,SafariA,Design of output feedback UPFC controller for damping of electromechanical oscillations using PSO. Energy Conversion and Management 50, 2554–2561,2009.

      [21] Eslami M, Shareef H, Taha MR, Khajehzadeh M, Adaptive particle swarm optimization for simultaneous design of UPFC damping controllers. Int J Electr Power Energy Syst.57:116–28,2014.

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  • How to Cite

    Nahak, N., Kumar Mallick, R., Kumar Pandey, R., Mumtazun Nabi, M., Panigrahi, D., & Samal, A. (2018). Small Signal Stability Enhancement of a Wind Energy Integrated Power System by UPFC Optimal Damping Controller. International Journal of Engineering & Technology, 7(4.39), 350-355. https://doi.org/10.14419/ijet.v7i4.39.23961