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Faramarzi, Z., Abazari, S., Hoghoughi, S., Abjadi, N.R.. (1403). Improved Power System Dynamic Stability by DFIG in the Presence of SSSC Using Adaptive Nonlinear Multi-Input Backstepping. سامانه مدیریت نشریات علمی, 12(2), 107-120. doi: 10.22098/joape.2023.10565.1753
Z. Faramarzi; S. Abazari; S. Hoghoughi; N.R. Abjadi. "Improved Power System Dynamic Stability by DFIG in the Presence of SSSC Using Adaptive Nonlinear Multi-Input Backstepping". سامانه مدیریت نشریات علمی, 12, 2, 1403, 107-120. doi: 10.22098/joape.2023.10565.1753
Faramarzi, Z., Abazari, S., Hoghoughi, S., Abjadi, N.R.. (1403). 'Improved Power System Dynamic Stability by DFIG in the Presence of SSSC Using Adaptive Nonlinear Multi-Input Backstepping', سامانه مدیریت نشریات علمی, 12(2), pp. 107-120. doi: 10.22098/joape.2023.10565.1753
Faramarzi, Z., Abazari, S., Hoghoughi, S., Abjadi, N.R.. Improved Power System Dynamic Stability by DFIG in the Presence of SSSC Using Adaptive Nonlinear Multi-Input Backstepping. سامانه مدیریت نشریات علمی, 1403; 12(2): 107-120. doi: 10.22098/joape.2023.10565.1753

Improved Power System Dynamic Stability by DFIG in the Presence of SSSC Using Adaptive Nonlinear Multi-Input Backstepping

Journal of Operation and Automation in Power Engineering
مقاله 2، دوره 12، شماره 2، تیر 2024، صفحه 107-120    اصل مقاله (3.64 M)
نوع مقاله: Research paper
شناسه دیجیتال (DOI): 10.22098/joape.2023.10565.1753
نویسندگان
Z. Faramarzi؛ S. Abazari* ؛ S. Hoghoughi؛ N.R. Abjadi
Faculty of Engineering, Shahrekord University, Shahrekord, Iran
چکیده
In this paper, Doubly Feed Induction Generator (DFIG) improves the dynamic stability of the power system in the presence of Static Synchronous Series Compensator (SSSC) using nonlinear control theory. The control method used in this study is based on the nonlinear multi-input adaptive backstepping control. The control signals are assigned to DFIG and SSSC and synchronous generator excitation system. The applied control method is more effective than the conventional linear and nonlinear ones which are reported in the literature. Also in this study, control inputs are designed considering their appropriate constraints. The controller coefficients are optimally selected using intelligent algorithms that increase the performance of the controller in terms of achieving stability. The designed control is robust against parameter variations and load changes as well as changing in the location of the disturbances. This method is simulated in two aspects of the synchronous machine model as a third-order model and a second-order one. The methods are implemented on a 39-bus IEEE system and the simulation results show the effectiveness of the proposed control mechanism.
کلیدواژه‌ها
Dynamic stability؛ DFIG؛ SSSC؛ Multi-input adaptive backstepping؛ Intelligent algorithm
مراجع
  1. Wang, T. Huang, X. Li, J. Tang, Z. Wu, Y. Mo, L. Xue, Y Zhoe, T. Niu, S. Sun, "A Resilience Assessment Framework for Distribution Systems Under Typhoon Disasters," IEEE Access, Vol. 9, Nov 2021.
  2. Muller, M. Deicke, R. W. De Doncker, "Doubly-fed induction generator systems for wind turbines", IEEE Ind. Appl. Mag., June 2002.
  3. Hasanzadeh, H. Shayeghi, S. R. Mousavi-Aghdam, "A New Fuzzy Direct Power Control of Doubly-Fed Induction Generator in a Wind Power System", J. Oper. Autom. Power Eng., vol. 10, no. 3, pp. 179-188, Dec. 2022.
  4. Bostani, S. Jalilzadeh, "A New Approach based on WideArea Fuzzy Controller for Damping of Sub Synchronous Resonance in Power System including DFIG", J. Oper. Autom. Power Eng., vol. 11, no. 1, pp. 61-68, Apr. 2023.
  5. Hosseini, N. Behzadfar, M. Hashemi, M. Moazzami, M. Dehghani, "Control of Pitch Angle in Wind Turbine Based on Doubly Fed Induction Generator Using Fuzzy Logic Method", Journal of Renewable Energy Environ., vol. 9, no. 2, pp. 1-7, 2022.
  6. Ma, Y. Zhou, Y. Shen, Y. Du, J. Wang, S. Sun, Y. Huang, S. Zhao, "Study on the energy stability region of DFIG-integrated power system with virtual inertia", IET Renew. Power Gener., vol. 16, pp. 2020–2035, 2022.
  7. Jiao, B.T. Ooi , G. Joos, F. Zhoub, "Doubly-fed induction generator (DFIG) as a hybrid of asynchronous and synchronous machines", Electric Power Syst. Research, vol. 76, pp: 33–37, 2005.
  8. S. Koa, G. G. Yoonb, N. H. Kyunga, W. P. Hongc, "Modeling and control of DFIG-based variable-speed windturbine", Electric Power Syst. Research, vol. 78, pp:1841– 1849, 2008.
  9. G. Hingorani and L. Gyugyi, Understanding FACTS, Concepts and Technology of Flexible AC Transmission Systems, Wiley-IEEE Press, 2000.
  10. Saleem Mir and N. Senroy, "DFIG damping controller design using robust CKF based adaptive dynamic programming", IEEE Trans. Sustainable Energy, vol. 11, no. 2, pp. 839–850, 2018.
  11. R. Sahu, P. K. Hota, S. Panda, "Power system stability enhancement by fractional order multi input SSSC based controller employing whale optimization algorithm", J. Electr. Syst. Inf. Technol., vol. 5, no 3, pp. 326-336 , December 2018.
  12. Kundur, Power System Stability and Control, New York, NY, USA: McGraw-Hill, 1994.
  13. Du, X. Chen, H, Wang, "Parameter tuning of the PLL to consider the effect on power system small-signal angular stability", IET Renewable. Power Gener., vol. 12, no. 1, pp. 1-8, 2018.
  14. Liu, Q. H. Wu, H. Kang, X. Zhou, " Switching Power System Stabilizer and Its Coordination for Enhancement of Multi-machine Power System Stability", J. Power Energy syst., vol. 2, no. 2, June 2016.
  15. K. Roy, M. A. Mahmud, A. M. T. Oo, "Robust Adaptive Backstepping Excitation Controller Design for Higher-Order Models of Synchronous Generators in Multi machine Power Systems", IEEE Trans. Power Syst. , vol. 34, no. 1, 2019.
  16. A. Mahmud, M. J. Hossain, H. R. Pota, and A. M. T. Oo ," Robust Partial Feedback Linearizing Excitation Controller Design for Multimachine Power Systems", IEEE Trans. Power Syst. , vol. 32, no. 1, pp. 3-16, 2017.
  17. Poitiers , T. Bouaouiche, M. Machmoum, "Advanced control of a doubly-fed induction generator for wind energy conversion", Electr. Power Syst. Res. , vol. 79, no. 7. pp. 1085–1096, 2009.
  18. Parida, S. Dhar, N. Nayak, "A finite time adaptive back-stepping sliding mode control for instantaneous activereactive power dynamics based DFIG-wind generation towards improved grid stability ", Wind Energy, vol. 23, no. 12, 2020.
  19. Maleki, S.Abazari, "Dynamic Stability Improvement of Power System With Simulation and Coordinated Control of DFIG and UPFC using LMI", Int. J. Indust. Electron. Control Optimiz., vol. 4, no. 3, pp.341-353, July 2021.
  20. Ma, Y. Qiu, Y. Li, W. Zhang, Z. Song, J. S. Thorp, "Research on the Impact of DFIG Virtual Inertia Control on Power System Small-Signal Stability Considering the Phase-Locked Loop", IEEE Trans. Power Syst., vol. 32, no. 3, pp. 2094 - 2105, 2016.
  21. Kamel, B. Mansour, B. Faouzi, "Enhancement of DFIG Operation Using a STATCOM Under a Voltage Grid Faults", 8th Int. Conf. Control, Decision and Information Techno. (CoDIT), Istanbul, Turkey, 2022.
  22. Sunil, M. Shahin, "Improving the Voltage Stability of Power System Connected with Wind Farm Using SSSC", Int. Conf. Communi. Control Infor. Sciences (ICCISc), Idukki, India, 2021.
  23. Alnasseir, R. Alcharea, F. Almaghout, "Improving the Stability of Smart Grids by Using Flexible Alternating Current Transmission Systems (FACTS)", 12th Int. Renewable Eng. Conf. (IREC), Amman, Jordan, 2021.
  24. Movahedia, A. Halvaei Niasara, G. Gharehpetianb, " Designing SSSC, TCSC, and STATCOM controllers using AVURPSO, GSA, and GA for transient stability improvement of a multi-machine power and GA for transient stability improvement of a multi-machine power system with PV and wind farms system with PV and wind farms", Electri. Power Energy Syst., vol. 106 , pp. 455–466, 2019.
  25. Elkington, V. Knazkins, M. Ghandhari, "On the stability of power systems containing doubly fed induction generatorbased generation", Electric Power Syst. Research, vol. 78, no. 9 , pp. 1477–1484, September 2008.
  26. Noroozian, M. Ghandehari, "Improving Power System Dynamics By Series-Connected FACTS Device", IEEE Trans. Power Delivery, vol. 12, no. 4, October 1997.
  27. Ma, D. Zhao, Y. Shen and A. G. Phadke, "Research on Positioning Method of Low Frequency Oscillating Source in DFIG-Integrated System with Virtual Inertia Control", IEEE Trans. Sustainable Energy, vol. 11, no. 3, pp. 1693 – 1706, 2020.
  28. S. Kaloi, M. Hussain, "Dynamic Modeling and Control of DFIG for Wind Energy Conversion System Using Feedback Linearization ", J. Electri. Eng. Techno., vol. 11, no. 5, pp. 1137-1146, September 2016.
  29. Ding, Nonlinear and Adaptive Control Systems, IET Control Engineering Series 84, Published by The Institution of Engineering and Technology, London, United Kingdom, 2013.
  30. K. Khalil, Nonlinear systems, Upper Saddle River, NJ: Prentice Hall, 2002.
  31. Slotine, W. Li, Applied Nonlinear Control, Published by Prentice Hall, 1991.
  32. Chi, Y. Xu,"Multi-objective robust tuning of STATCOM controller parameters for stability enhancemnt of stochastic wind-penetrated power systems", IET Gener. Transm. Distrib. , vol. 14, no. 21, pp. 4805-4814, September 2020.
  33. K. Dubey, N. K. Singh , "Multi machine power system stability enhancement with UPFC using linear quadratic regulator techniques", Int. J. Advanced Research Eng. Techno., vol. 11, no. 4, pp. 219-229, April 2020.
  34. Sabo, N. I. Abdul Wahab, M. L. Othman, M. Zurwatul, A. M. Jaffar, H. Beiranvand, "Optimal design of power system stabilizer for multimachine power system using farmland fertility algorithm", Electri. Energy Syst., vol. 30, no. 12, 2020.
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