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Warianty tytułu
Jednoczesne skoordynowane wykorzystanie tłumienia TCSC i kontrolera napięcia sieci AVR bazujące na technice PSO
Języki publikacji
Abstrakty
Power system is a nonlinear system that requires accurate and robust control to improve power system stability following the occurrence of disturbance. In order to damp out oscillations, coordinated design problem of TCSC-based damping controller and AVR is formulated as an optimization problem. PSO technique has been employed to solve the optimization problem. Dynamic performance of these controllers has been appraised over a wide range of loading conditions under sever disturbance in SMIB power system. The non-linear time-domain simulation results suggest that the robustness of simultaneous coordinated design of these devices to enhance power system dynamic stability.
Opisano metodę sterowania stabilnością systemu zasilania przy obecności zakłóceń. Dla tłumienia oscylacji wykorzystano kontroler TCSC a AVR (automatic voltage regulator) jest traktowany jako problem optymalizacyjny. Do sterowania wykorzystano algorytmy rojowe PSO.
Wydawca
Czasopismo
Rocznik
Tom
Strony
136--140
Opis fizyczny
Bibliogr. 27 poz., schem.
Twórcy
autor
- Izeh Branch, Islamic Azad University
Bibliografia
- [1] M.A. Abido, Y.L. Abdel-Magid, “Coordinated design of a PSS and SVC-based controller to enhance power system stability” Electrical Power and Energy Systems 25 (2003), 695–704
- [2] A.D. Falehi, M. Rostami, “A Robust Approach Based on RCGA-Optimization Technique to Enhance Power System Stability by Coordinated Design of PSS and AVR”, International Review of Electrical Engineering, 6 (2011), No. 1, 371-378.
- [3] P. Kunder, “Power System Stability and Control”, New York: McGraw, Hill, 2001.
- [4] M.A. Abido, “Analysis and assessment of STATCOM-based damping stabilizers for power system stability enhancement”, Electric Power Systems Research, 73 (2005), No. 2, 177-185.
- [5] Tambey N, Kothari ML. Damping of power system oscillations with unified power flow controller (UPFC). IEE Proc Generation Transm Distrib 150 (2003), No. 2, 129-40.
- [6] Valentin Azbe, and Rafael Mihalic, “The Control Strategy for an IPFC Based on the Energy Function” IEEE Trans. Power Syst. 23 (2008), No. 4, 1662-1669.
- [7] L. Cai, I. Erlich, Simultaneous coordinated tuning of PSS and FACTS damping controllers in large power systems, IEEE Trans. Power Syst., 20 (2005), No. 1, 294-300.
- [8] P. Mattavelli, G.C. Verghese, A.M. Stankovic, Phasor dynamics of thyristor-controlled series capacitor systems, IEEE Trans. Power Syst. 12 (1997), No. 3, 1259-1267.
- [9] B.H. Li, Q.H.Wu, D.R. Turner, P.Y.Wang, X.X. Zhou,Modeling of TCSC dynamics for control and analysis of power system stability, Int. J. Electr. Power Energy Syst. 22 (2000), No.1, 43-49.
- [10] A.D. Del Rosso, C.A. Canizares, V.M. Dona, A study of TCSC controller design for power system stability improvement, IEEE Trans. Power Syst. 18 (2003), No.4, 1487-1496.
- [11] H.M. Soliman, A. Dabroum, M.S. Mahmoud, M. Soliman, Guaranteed-cost reliable control with regional pole placement of a power system, Journal of the Franklin Institute 348 (2011) 884–898.
- [12] R. Benabid, M. Boudour, M.A. Abido, Optimal location and setting of SVC and TCSC devices using non-dominated sorting particle swarm optimization, Int. J. Electric Power Syst. Res 79 (2009), 1668-1677.
- [13] L. Wang, H. Cheung, A. Hamlyn, R. Cheung, “Web-based Integrated Stability Enhancement Strategy for Distribution and Transmission Systems,” IEEE LESCOPE Conference, Montreal, 2007
- [14] A.M. El-Zonkoly, A.A. Khalil, N.M. Ahmied, Optimal tunning of lead-lag and fuzzy logic power system stabilizers using particle swarm optimization, Expert Systems with Applications 36 (2009), No. 2, 2097-2106.
- [15] E.R.C. Viveros, G.N. Taranto, D.M. Falcão, Tuning of Generator Excitation Systems using Meta-heuristics, IEEE Power Engineering Society General Meeting, october 16, 2006,Que, Montreal.
- [16] Sidhartha Panda, Narayana Prasad Padhy., “Optimal location and controller design of STATCOM for power system stability improvement using PSO” Journal of the Franklin Institute, 345 (2008), No. 2, 166-181.
- [17] R.L. Haupt and S.E. Haupt, “Practical Genetic Algorithms,” New York: Wiley, 2004.
- [18] A.M. El-Zonkoly, A.A. Khalil, N.M. Ahmied., “Optimal tunning of lead-lag and fuzzy logic power system stabi-lizers using particle swarm optimization” Expert Systems with Applications 36 (2009), No. 2, 2097-2106.
- [19] H. Shayeghi, A. Safari, H.A. Shayanfar, “PSS and TCSC damping controller coordinated design using PSO in mul-timachine power system” Energy Conversion and Man-agement, 51 (2010), 2930-2937.
- [20] Luonan Chen, Hideya Tanaka, Kazuo Katou, Yoshiyuki Nakamura., “Stability analysis for digital controls of power systems,” Int. J. Electric Power Syst. Res 55 (2000), No. 2, 79-86.
- [21] G.I. Rashed, H.I. Shaheen, X.Z. Duan, S.J. Cheng, “Evolutionary optimization techniques for optimal location and parameter setting of TCSC under single line contingency” Appl. Math. Comput. 205 (2008), 133-147.
- [22] Y.J. Liu, X.X. He, “Modeling identification of power plant thermal process based on PSO algorithm,” international American Control Conference (2005) 4484-4489.
- [23] J. Kennedy, R. Eberhart, Swarm Intelligence, 1st ed., Academic press, San Diego, CA, 2001.
- [24] Ali Darvish Falehi, Mehrdad Rostami, Hassan Mehrjardi, “Transient Stability Analysis of Power System by Coordinated PSS-AVR Design Based on PSO Technique” Internatopnal Journal of Enginearing, 3 (2011), No. 5, 178-184.
- [25] Panda, N.P. Padhy, “Comparison of particle swarm optimization and genetic algorithm for FACTS-based controller design,” Appl. Soft Comput 8 (2008), No. 4, 1418–1427.
- [26] A.D. Falehi, M. Rostami, “Design and Analysis of a Novel Dual-input PSS for damping of power system oscillations Employing RCGA-Optimization Technique, International Review of Electrical Engineering”, 6 (2011), No. 2, 938-945.
- [27] M.A. Abido, “Pole placement technique for PSS and TCSCbased stabilizer design using simulated annealing,” Int. J. Electric Power Syst. Res 22 (2000), No. 8, 543-554.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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