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Novel Non-linear Control of DFIG and SSSC for Stability Increment of Power System | ||
International Journal of Industrial Electronics Control and Optimization | ||
مقاله 1، دوره 7، شماره 1، خرداد 2024، صفحه 1-14 اصل مقاله (1.82 M) | ||
نوع مقاله: Research Articles | ||
شناسه دیجیتال (DOI): 10.22111/ieco.2023.45795.1485 | ||
نویسنده | ||
Saeed Abazari* | ||
Faculty of Engineering, University of shahrekord, shahrekord, Iran | ||
چکیده | ||
This study examines stability improvement of the power system which includes Double Feed Induction Generators (DFIGs) and Static Series Synchronous Compensator (SSSC). The proposed nonlinear controller is designed based on the terminal sliding mode control theory. A sliding mode observer is also developed to remove the need to access the information of all the state variables. The final closed-loop of the power system modeling is robust against parameter variations and uncertainties. The limitations of the control signals in the process of controller design are also considered. The application of such a method increases the stability margins and results in higher robustness degrees. A comparison with other nonlinear approaches such as back-stepping and feedback linearization approaches is carried out. The results show the faster and more reliable convergence rate of the power system-controlled trajectories to reach back to the equilibrium point after occurring a sudden fault. The results are obtained by performing a simulation on the standard 39-Bus, 10 machines NEW ENGLAND power system. | ||
کلیدواژهها | ||
Stability؛ Terminal sliding mode؛ Sliding mode observer؛ DFIG؛ SSSC | ||
مراجع | ||
[1] S. Muller, M. Deicke & R I K W, “Doubly-fed induction generator systems for wind turbines,” IEEE Industry Applications Magazine, June 2002.
[2] R. M.Elavarasan , G.M. Shafiullah, S. k. Padmanaban, N. M. Kumar,” A Comprehensive Review on Renewable Energy Development, Challenges and Policies of leading Indian States with an International Perspective,“ IEEE Access, April 2020, vol. 8, pp. 74432 – 74457. [3] T. Ariyarathna, N. Kularatna,K. Gunawardane , D. Jayananda, D. A. S. Ross, ” Development of Supercapacitor Technology and Its Potential Impact on New Power Converter Techniques for Renewable Energy, “ IEEE journal of emerging and selected topics in industrial electronics, July 2021, vol. 2, no. 3, pp. 267 – 276. [4] N. H. Khan, Y. Wang , D. Tian, R. A .Jamal, ” A Novel Modified Lightning Attachment Procedure Optimization Technique for Optimal Allocation of the FACTS Devices in Power Systems,“ IEEE Access, April 2021, vol. 9, pp. 4797647997. [5] M. A. Chitsazan, M. S. Fadali , A. M. Trzynadlowski, ” State Estimation for Large-Scale Power Systems and FACTS Devices Based on Spanning Tree Maximum Exponential Absolute Value,” Transactions on Power Systems, August 2019, vol. 35, no. 1, pp. 238 – 248. [6] N. H. Khan ,Y. Wang ,D .Tian, R. Jamal , S. Kamel , M. Ebeed, ”Optimal Siting and Sizing of SSSC Using Modified Salp Swarm Algorithm Considering Optimal Reactive Power Dispatch Problem,” IEEE Access, April 2021, vol. 9, pp. 4924949266. [7] P. R. Sahu, P. K. Hota, S. Panda, “ Power system stability enhancement by fractional order multi input SSSC based controller employing whale optimization algorithm,” Science Direct, Journal of Electrical Systems and Information Technology, December 2018, vol. 5, no. 3, pp. 326-336. [8] A. Movahedi, A. Halvaei Niasar, G. Gharehpetian, " 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," Elsevier, Electrical Power and Energy Systems, March 2019, Vol. 106 , pp. 455–466.
[9] B. K. Dubey , N. K. Singh, ” Multi machine power system stability enhancement with UPFC using linear quadratic regulator techniques,” International Journal of Advanced Research in Engineering and Technology , April 2020, vol. 11, pp. 219-229. [10] M. R. Shakarami; A. Asadi Ghyasvand, A. Kazemi, ” Evaluation of effect of SSSC stabilizer in different control channels on sub-synchronous resonance oscillations,” Scientia Iranica, vol. 25, no. 3, pp. 1492-1506. [11] M. Maleki, S. Abazari, ” Stability Improvement of Power System With Simulation and Coordinated Control of DFIG and UPFC using LMI,” International Journal of Industrial Electronics, Control and Optimization, July 2021, vol. 4, no. 3, pp. 341-353. [12] M. A. Mahmud, “An alternative LQR-based excitation controller design for power systems to enhance small-signal stability,” Int. J. Elect. Power Energy Syst, Dec. 2014, vol. 63, pp. 1–7. [13] A. A. Vali, S. M. H. Hosseini, J. Olamaei, ’’Control of doubly-fed induction generator with extended state observer under unbalanced grid conditions,” Scientia Iranica, Oct 2020, vol. 29, no 5, pp. 2498-2514. [14] S. Shojaeain, J. Soltani, Gh. Arab, ’’Damping of Low Frequency Oscillations of Multi-Machine Multi-UPFC Power Systems, Based on Adaptive Input-Output Feedback Linearization Control,’’ IEEE Transaction on Power Systems, May 2012, vol. 27, no. 4, pp. 1831 - 1840 [15] M. J. Morshed, A. Fekih, “A Coordinated Controller Design for DFIG-Based Multi-Machine Power Systems,” IEEE systems journal, September 2019, vol. 13, no. 3, pp. 3211 - 3222 [16] T. K. Roy, M. A. Mahmud, Amanullah M. T. Oo, ” Robust Adaptive Back stepping Excitation Controller Design for HigherOrder Models of Synchronous Generators in Multi machine Power Systems,” IEEE Transactions on Power Systems, September 2018, vol. 34, no. 1, pp. 40 – 51. [17] H. Wu, X. Wang ,”A Mode-Adaptive Power-Angle Control Method for Transient Stability Enhancement of Virtual Synchronous Generators,“, IEEE journal of emerging and selected topics in power electronics, june 2020, vol. 8, no. 2, pp. 1034 – 1049. [18] H. S. Saravia, H. P. Painemal, D. A. Schoenwald, W. Ju,” Adaptive Coordination of Damping Controllers for Enhanced Power System Stability,” IEEE Open Access Journal of Power and Energy, July 2020, vol. 7, pp. 265 – 275. [19] Y. Mi, Y. Song, Y. Fu, Ch. Wang, “ The Adaptive Sliding Mode Reactive Power Control Strategy for Wind-Diesel Power System Based on Sliding Mode Observer, “ Transactions on Sustainable Energy, November 2019, vol. 11, no. 4, pp. 2241 –2251. [20] WEI Zhang, Shizen Li, Yanju Liu, ”Adaptive Sliding Mode Back-Stepping Speed Control of Hydraulic Motor for Wave Energy Conversion Device“, IEEE power & energy society section, May 2020, vol. 8, pp. 89757 – 89767 [21] S. Abazari, Z. Faramarzi, ” A Novel Control to Improve Dynamic Stability of Power Systems Including DFIG and SSSC,” International Journal of Industrial Electronics, Control and Optimization, vol. 5, Issue 4 , December 2022, , pp. 327-336. [22] S. Ghaedi, S. Abazari, G. R.Arab, ”Novel non-linear control of DFIG and UPFC for transient stability increment of power system,” IET Generation, Transmission & Distribution, vol. 16, Issue 19,October 2022, pp. 3799-4026. [23] Z. Faramarzi, S. Abazari, S. Hoghoughi and N. R. Abjadi,”Improving the stability of the DFIG power system in the presence of SSSC in a nonlinear manner,” Computational Intelligence in Electrical Engineering,vol. 14, Issue 1, May 2023, Pages 45-58. [24] A. R. Bergen,Power Systems Analysis, Preticed Hall, Newjersy, 2000. [25] Kundur, Power System Stability and Control, New York, USA: McGraw-Hill, 1994. [26] K. Elkington, V. Knazkins, M. Ghandhari, “On the stability of power systems containing doubly fed induction generatorbased generation,” Elsevier, Electric Power Systems Research, September 2008, vol. 78, no. 9 , pp. 1477–1484. [27] M. Noroozian, M. Ghandehari, ”Improving Power Systems By Series-Connected FACTS Device,” IEEE Transactions on Power Delivery, October 1997, vol. 12, no. 4, pp. 1635 – 1641. [28]Y. Feng, X. Yub, F. Han,” On nonsingular terminal slidingmode control of nonlinear systems” Elsevier, Automatica, June 2013. vol. 49, no. 6, pp. 1715-1722. [29] V. Behnamgol, A. R. Vali, ”Terminal Sliding Mode Control for Nonlinear Systems with Both Matched and Unmatched Uncertainties,” Iranian Journal of Electrical & Electronic Engineering, June 2015, vol. 11, no. 2, pp. 109-117 [30] W. Perruquetti, J. P. Barbot, ”Sliding Mode Conrol in Engineering”, Marcel Dekker INC, New York, USA: Basel, 2002. [31] H. Rios, R. Franco, A. F.d.Loza, D. Efimov, ”A High-Order Sliding-Mode Adaptive Observer for Uncertain Nonlinear Systems,” IEEE Transaction on Automatic Control, December2021,Early Access :DOI: 0.1109/TAC.2021.3139308. [32] L. Vetoshkin, Z. K. Muller, ’’ Stability Improvement of Power System by Means of STATCOM With Virtual Inertia,’’ IEEE ACSSES, August 2021, vol. 9, pp. 116105 – 116114. [33] Z. Faramarzi, S. Abazari, S. Hoghoughi and N. R. Abjadi, ” Dynamic stability improvement of power system with DFIG using multi-input backstepping control,” Electrical Engineering, pp. 4491–4507, September 2022 | ||
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