|تعداد مشاهده مقاله||2,423,997|
|تعداد دریافت فایل اصل مقاله||1,709,526|
|Journal of Electrical and Computer Engineering Innovations (JECEI)|
|مقاله 12، دوره 6، شماره 1، فروردین 2018، صفحه 97-109 اصل مقاله (1.81 M)|
|نوع مقاله: Original Research Paper|
|شناسه دیجیتال (DOI): 10.22061/jecei.2018.1102|
|B. Ehsan maleki* 1؛ H. Beiranvand2|
|1Teacher Training shahid rajaee university|
|تاریخ دریافت: 21 بهمن 1395، تاریخ بازنگری: 20 خرداد 1396، تاریخ پذیرش: 20 آبان 1396|
|Background and Objectives: In this paper, a non-typical design method of flexible AC transmission systems power oscillation damping (FACTS-POD) controller is proposed to increase the efficiency of these devices. In all of the introduced FACTS-POD devices (taking IPFC-POD as an example), the supplementary controller is designed based upon a conventional approach (i.e., based on optimization algorithms) and using a different method can be useful.|
Methods: In this paper, the graduated modal decomposition control (GMDC) is utilized as a specific strategy for POD controller design. Moreover, the dynamic model of the multi-machine power system with the presence of IPFC devices has been developed.
Results: The obtained model is nonlinear; however, it is linearized around the operating point to design the controllers. The overall paper's structure is based upon the two scenarios, in the first of which conventional method for IPFC-POD design has been analyzed there upon the result compared with the introduced method in the second scenario. Finally, to ascertain responsive of the designed controller to load changes and stability of the system, the probabilistic sensitivity indices (PSIs) are investigated over a large set of operating conditions. As a verification, the time-domain simulations on a 10-machine power system emphasize the analysis of dynamic results and their information under the considered conditions.
Conclusion: In general, the specific purpose of this paper is to enhance of the dynamic stability of concerned inter-area modes. The proposed method, especially using GRSA, offers better stability characteristics than the results of previous methods.
©2018 The author(s). This is an open access article distributed under the terms of the Creative Commons Attribution (CC BY 4.0), which permits unrestricted use, distribution, and reproduction in any medium, as long as the original authors and source are cited. No permission is required from the authors or the publishers.
|flexible ac transmission systems power oscillation damping؛ graduated modal decomposition control method؛ probabilistic sensitivity indices|
 A. F. Bati “Optimal interaction between PSS and FACTS devices in damping power systems oscillations: Part II,” in Proc. 2010 IEEE International Energy Conference: 452-457, 2010.
 N. Rezaei, M. Kalantar, H. A. Shayanfar, Y. Alipouri, A. Safari, “Optimal IPFC signal selection and damping controller design using a novel current injection model in a multi-machine power system,” International Journal of Electrical Power and Energy Systems, 44(1): 461-70, 2013.
 A. Kumar, “Power system stabilizers design for multi-machine power systems using local measurements,” IEEE Transactions on Power Systems, 31(3): 2163-2171, 2016.
 M. R. Shakarami, I. F. Davoudkhani, “Wide-area power system stabilizer design based on grey wolf optimization algorithm considering the time delay,” Electric Power Systems Research, 133: 149-159, 2016.
 B. Ehsan‐Maleki, P. Naderi, H. Beiranvand, “A novel 2‐stage WAPSS design method to improve inter‐area mode damping in power systems,” International Transactions on Electrical Energy Systems, 2018 Mar; 28(3): e2503, 2018.
 D. D. Simfukwe, B. C. Pal, R. A. Jabr, N. Martins, “Robust and low-order design of flexible ac transmission systems and power system stabilisers for oscillation damping,” IET generation, transmission & distribution, 6(5): 445-452, 2012.
 E. Gholipour, G. H. Isazadeh, “Design of a new adaptive optimal wide area IPFC damping controller in Iran transmission network,” International Journal of Electrical Power & Energy Systems, 53: 529-539, 2013.
 M. A. Furini, A. L. Pereira, P. B. Araujo, “Pole placement by coordinated tuning of power system stabilizers and FACTS-POD stabilizers,” International Journal of Electrical Power & Energy Systems, 33(3): 615-622, 2011.
 S. Bhowmick, B. Das, N. Kumar, “An advanced IPFC model to reuse Newton power flow codes,” IEEE Transactions on Power Systems, 24(2): 525-532, 2009.
 J. Guo, M. L. Crow, J. Sarangapani, “An improved UPFC control for oscillation damping,” IEEE Transactions on Power Systems, 24(1): 288-296, 2009.
 X. Y. Bian, C. T. Tse, J. F. Zhang, K.W. Wang, “Coordinated design of probabilistic PSS and SVC damping controllers,” International Journal of Electrical Power & Energy Systems, 33(3): 445-452, 2011.
 H. Shayeghi, A. Safari, H. A. Shayanfar, “PSS and TCSC damping controller coordinated design using PSO in multi-machine power system,” Energy Conversion and Management, 51(12): 2930-2937, 2010.
 R. Visakhan, R. Rahul, A. A. Kurian, “Comparative study of PSS and FACTS-POD for power system performance enhancement,” in Proc. 2015 International Conference on Power, Instrumentation, Control and Computing (PICC): 1-6, 2015.
 C. R. Makkar, L. Dewan, “Simultaneous coordination of Power System Stabilizer and UPFC for improving dynamic stability of multimachine system,” in Proc. 2014 IEEE 6th India International Conference on Power Electronics (IICPE): 1-4, 2014.
 M. Khaleghi, M. M. Farsangi, H. Nezamabadi-Pour, K. Y. Lee, “Pareto-optimal design of damping controllers using modified artificial immune algorithm,” IEEE Transactions on Systems, Man, and Cybernetics, Part C, 41(2): 240-250, 2011.
 H. Beiranvand, E. Rokrok, “General relativity search algorithm: a global optimization approach,” International Journal of Computational Intelligence and Applications, 14(3), 2015.
 M. Khederzadeh, A. Ghorbani, “Impact of VSC-based multiline FACTS controllers on distance protection of transmission lines,” IEEE transactions on Power delivery, 27(1): 32-39, 2012.
 A. Kazemi, E. Karimi, “The effect of interline power flow controller (IPFC) on damping interarea oscillations in the interconnected power systems,” in Proc. The 41st International Universities Power Engineering Conference: 769-773, 2006.
 A. M. Parimi, I. Elamvazuthi, N. Saad, “Interline power flow controller application for low frequency oscillations damping,” WSEAS Transactions on Systems, 9(5): 511-527, 2010.
 S. K. Wang, “A novel objective function and algorithm for optimal PSS parameter design in a multi-machine power system,” IEEE Transactions on Power Systems, 28(1): 522-531, 2013.
 J. Zhang, C. Y. Chung, Y. Han, “A novel modal decomposition control and its application to PSS design for damping interarea oscillations in power systems,” IEEE Transactions on Power Systems, 27(4, 2015-2025, 2012.
 Y. Yuan, Y. Sun, and L. Cheng, “Determination of wide-area PSS locations and feedback signals using improved residue matrices,” in Proc. 2008 IEEE Asia Pacific Conference on Circuits and Systems): 762-765, 2008.
 S. Aboreshaid, R. Billinton, M. Fotuhi-Firuzabad, “Probabilistic transient stability studies using the method of bisection [power systems],” IEEE Transactions on Power Systems, 11(4): 1990-1995, 1996.
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