BibTex RIS Kaynak Göster

Elektrik Enerjisinin Bölgeler Arası Alışverişinin Optimizasyonu / Optimization of Inter Area Transfer Capability on Power Systems

Yıl 2011, Cilt: 1 Sayı: 1, 31 - 38, 01.06.2011

Öz

Güç sistemlerinin büyük boyutlara ulaşması ve uluslararası elektrik enerjisi ticaretinin artmasıyla birlikte, bölgeler arası elektrik enerjisi alışverişi de önem kazanmıştır. Duyarlılık faktörleri ile, farklı çalışma noktaları için tekrar bir güç akışı analizi yapmadan, iletim hatları ve diğer sistem elemanlarının parametreleri hakkında geniş bilgi edinilebilir. Bu durumda, iletim hattı kapasiteleri ve üretim gruplarının sınır değerleri hesaba katılarak bölgeler arası maksimum elektrik enerjisi alışverişinin sağlanması bir optimizasyon problemi olarak ele alınabilir. Bu çalışmada, güç iletim dağılım faktörü ve farklı optimizasyon yöntemleri kullanılarak, dört bölge, onbir bara ve onsekiz iletim hattndan oluşan güç sisteminde, üretim değerleri optimize edilerek, bölgeler arası elektrik enerjisi alışverişi maksimize edilmiştir.

ABSTRACT

Since size of the power systems and  demand for electric energy trading increases,  inter area transfer  capability becomes an important issue. By using sensitiviy factors, large amount of information about different operating points of power systems, can be obtained without power flow analysis.Providing maximum power transfer between areas  of power systems while considering capacities of transmission lines and generation limits, can be thought as an optimization problem. In this study,  power transfer distribution factor (PTDF) and different optimization methods are used to optimize generation  values for providing maximum power transfer between areas of power system consists of four areas, elevenbusses and eighteen transmission lines.

Kaynakça

  • Chiang H., Flueck A., Shah K. ve Balu N., "CPFLOW, a practical tool for tracing power system steady-state stationary behavior due to load and generation variations", IEEE Trans. Power Syst., 10(2), 623–634, 1995.
  • Overbye, T. ve Demarco, C., "Improved techniques for power system voltage stability assessment using energy methods", IEEE Trans. Power Syst., 6(4), 1446–1452, 1991.
  • Gao B., Morison G. ve Kundur P., "Voltage stability evaluation using modal analysis", IEEE Trans. Power Syst., 7(4), 1529-1542, 1992.
  • Canizares C., "On bifurcations, voltage collapse and load modeling", IEEE Trans. Power Syst., 10(2), 512–518, 1995.
  • Haque M., "On-line monitoring of maximum permissible loading of a power system within voltage stability limits", IEE Proc. Gener. Transm. Distrib., 2003, 107–112.
  • Wang Y., Li W., Lu J., "A new node voltage stability index based on local voltage phasors", Electr. Power Syst. Res., 79(1), 265–271, 2009.
  • Corsi S., Taranto G., "A real-time voltage instability identification algorithm based on local phasor measurements', IEEE Trans. Power Syst., 23(3), 1271–1279, 2008.
  • Greene, S., Dobson, I. ve Alvarado, F.L., "Sensitivity of transfer capability margins with a fast formula", IEEE Trans. Power Syst., 17(1), 34–40, 2002.
  • Youjie D., McCalley, J.D. ve Vittal, V., "Simplification, expansion and enhancement of direct interior point algorithm for power system maximum loadability", IEEE Trans. Power Syst., 15(3), 1014–1021, 2000.
  • Mello, J.C.O., Melo, A.C.G. ve Granville, S., "Simultaneous transfer capability assessment by combining interior point methods and Monte Carlo simulation", IEEE Trans. Power Syst., 12(2), 736–742, 1997.
  • Ying X., Song, Y.H., Chen-Ching L. ve Sun, Y.Z., "Available transfer capability enhancement using FACTS devices", IEEE Trans. Power Syst., 18(1), 305–312, 2003.
  • Orfanogianni, T. ve Bacher, R., "Steady-state optimization in power systems with series FACTS devices", IEEE Trans. Power Syst., 18(1), 19-26, 2003.
  • Bettiol, A.L., Wehenkel, L. ve Pavella, M., "Transient stability-constrained maximum allowable transfer", IEEE Trans. Power Syst., 14(2), 654-659, 1999.
  • Hakim, L., Kubokawa, J., Yue Yuan, Mitani, T., Zoka, Y., Yorino, N., Niwa, Y., Shimomura, K. ve Takeuchi, A., "A Study on the Effect of Generation Shedding to Total Transfer Capability by Means of Transient Stability Constrained Optimal Power Flow", IEEE Trans. Power Syst., 24(1), 347-355, 2009.
  • Leonidaki, E.A., Georgiadis, D.P. ve Hatziargyriou, N.D., "Decision trees for determination of optimal location and rate of series compensation to increase power system loading margin", IEEE Trans. Power Syst., 21(3), 1303-1310, 2006.
  • Pandey, S.N., Pandey, N.K., Tapaswi, S. ve Srivastava, L, "Neural Network-Based Approach for ATC Estimation Using Distributed Computing", IEEE Trans. Power Syst., 25(3), 1291-1300, 2010.
  • Sookananta, B., Galloway, S.J., Burt, G.M. ve McDonald, J.R., "Employment of power transfer distribution factor for the optimal placement of FACTS devices", IPEC, International Power Engineering Conference, 2007, 569 - 573.
  • Naik, R.S., Vaisakh, K., ve Anand, K., "Application of TCSC for enhancement of ATC withPTDF in Power Transmission System", International Conference on Intelligent and Advanced Systems (ICIAS), 2010, 1-6.
  • Chong W., Vittal, V., Kolluri, V.S. ve Mandal, S., "PTDF-based automatic restoration path selection", IEEE Trans. Power Syst., 25(3), 1686-1695, 2010.
  • Smieja, T., Lombardi, P., Styczynski, Z.A. ve Loppen, S., "Influence of inter area Transfer Capacity on the Regional Power System Planning", IEEE PowerTech Conference, 2009, 1-6.
  • Patel, M. ve Girgis, A.A., "Review of available transmission capability (ATC) calculation methods", PSC, Power Systems Conference, 2009, 1-9.
  • Goldberg D. E., “Genetic algorithms in search, optimization, and machine learning”, Addison Wesley Longman, 1989.
  • Uyar A. Ş. ve Türkay B., “Evolutionary Algorithms for the Unit Commitment Problem”, Turkish Journal of Electrical Engineering, 16(3), 239-255, 2008.
  • Christie, R.D., Wollenberg, B.F. ve Wangensteen, I., "Transmission management in the deregulated environment", Proceedings of the IEEE, 88(2), 170-195, 2000.
  • Levy, Norman M., "The Application of Hill-Climbing Methods to the Adaptive Control of Small-Scale Practical Systems", IEEE Transactions on Industrial Electronics and Control Instrumentation, 24(1), 74-80, 1977.
  • Kurbel, K., Schneider, B. ve Singh, K, "Solving optimization problems by parallel recombinative simulated annealing on a parallel computer-an application to standard cell placement in VLSI design", IEEE Transactions on Systems, Man, and Cybernetics, 28(3), 454-461, 1998.
Yıl 2011, Cilt: 1 Sayı: 1, 31 - 38, 01.06.2011

Öz

Kaynakça

  • Chiang H., Flueck A., Shah K. ve Balu N., "CPFLOW, a practical tool for tracing power system steady-state stationary behavior due to load and generation variations", IEEE Trans. Power Syst., 10(2), 623–634, 1995.
  • Overbye, T. ve Demarco, C., "Improved techniques for power system voltage stability assessment using energy methods", IEEE Trans. Power Syst., 6(4), 1446–1452, 1991.
  • Gao B., Morison G. ve Kundur P., "Voltage stability evaluation using modal analysis", IEEE Trans. Power Syst., 7(4), 1529-1542, 1992.
  • Canizares C., "On bifurcations, voltage collapse and load modeling", IEEE Trans. Power Syst., 10(2), 512–518, 1995.
  • Haque M., "On-line monitoring of maximum permissible loading of a power system within voltage stability limits", IEE Proc. Gener. Transm. Distrib., 2003, 107–112.
  • Wang Y., Li W., Lu J., "A new node voltage stability index based on local voltage phasors", Electr. Power Syst. Res., 79(1), 265–271, 2009.
  • Corsi S., Taranto G., "A real-time voltage instability identification algorithm based on local phasor measurements', IEEE Trans. Power Syst., 23(3), 1271–1279, 2008.
  • Greene, S., Dobson, I. ve Alvarado, F.L., "Sensitivity of transfer capability margins with a fast formula", IEEE Trans. Power Syst., 17(1), 34–40, 2002.
  • Youjie D., McCalley, J.D. ve Vittal, V., "Simplification, expansion and enhancement of direct interior point algorithm for power system maximum loadability", IEEE Trans. Power Syst., 15(3), 1014–1021, 2000.
  • Mello, J.C.O., Melo, A.C.G. ve Granville, S., "Simultaneous transfer capability assessment by combining interior point methods and Monte Carlo simulation", IEEE Trans. Power Syst., 12(2), 736–742, 1997.
  • Ying X., Song, Y.H., Chen-Ching L. ve Sun, Y.Z., "Available transfer capability enhancement using FACTS devices", IEEE Trans. Power Syst., 18(1), 305–312, 2003.
  • Orfanogianni, T. ve Bacher, R., "Steady-state optimization in power systems with series FACTS devices", IEEE Trans. Power Syst., 18(1), 19-26, 2003.
  • Bettiol, A.L., Wehenkel, L. ve Pavella, M., "Transient stability-constrained maximum allowable transfer", IEEE Trans. Power Syst., 14(2), 654-659, 1999.
  • Hakim, L., Kubokawa, J., Yue Yuan, Mitani, T., Zoka, Y., Yorino, N., Niwa, Y., Shimomura, K. ve Takeuchi, A., "A Study on the Effect of Generation Shedding to Total Transfer Capability by Means of Transient Stability Constrained Optimal Power Flow", IEEE Trans. Power Syst., 24(1), 347-355, 2009.
  • Leonidaki, E.A., Georgiadis, D.P. ve Hatziargyriou, N.D., "Decision trees for determination of optimal location and rate of series compensation to increase power system loading margin", IEEE Trans. Power Syst., 21(3), 1303-1310, 2006.
  • Pandey, S.N., Pandey, N.K., Tapaswi, S. ve Srivastava, L, "Neural Network-Based Approach for ATC Estimation Using Distributed Computing", IEEE Trans. Power Syst., 25(3), 1291-1300, 2010.
  • Sookananta, B., Galloway, S.J., Burt, G.M. ve McDonald, J.R., "Employment of power transfer distribution factor for the optimal placement of FACTS devices", IPEC, International Power Engineering Conference, 2007, 569 - 573.
  • Naik, R.S., Vaisakh, K., ve Anand, K., "Application of TCSC for enhancement of ATC withPTDF in Power Transmission System", International Conference on Intelligent and Advanced Systems (ICIAS), 2010, 1-6.
  • Chong W., Vittal, V., Kolluri, V.S. ve Mandal, S., "PTDF-based automatic restoration path selection", IEEE Trans. Power Syst., 25(3), 1686-1695, 2010.
  • Smieja, T., Lombardi, P., Styczynski, Z.A. ve Loppen, S., "Influence of inter area Transfer Capacity on the Regional Power System Planning", IEEE PowerTech Conference, 2009, 1-6.
  • Patel, M. ve Girgis, A.A., "Review of available transmission capability (ATC) calculation methods", PSC, Power Systems Conference, 2009, 1-9.
  • Goldberg D. E., “Genetic algorithms in search, optimization, and machine learning”, Addison Wesley Longman, 1989.
  • Uyar A. Ş. ve Türkay B., “Evolutionary Algorithms for the Unit Commitment Problem”, Turkish Journal of Electrical Engineering, 16(3), 239-255, 2008.
  • Christie, R.D., Wollenberg, B.F. ve Wangensteen, I., "Transmission management in the deregulated environment", Proceedings of the IEEE, 88(2), 170-195, 2000.
  • Levy, Norman M., "The Application of Hill-Climbing Methods to the Adaptive Control of Small-Scale Practical Systems", IEEE Transactions on Industrial Electronics and Control Instrumentation, 24(1), 74-80, 1977.
  • Kurbel, K., Schneider, B. ve Singh, K, "Solving optimization problems by parallel recombinative simulated annealing on a parallel computer-an application to standard cell placement in VLSI design", IEEE Transactions on Systems, Man, and Cybernetics, 28(3), 454-461, 1998.
Toplam 26 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Bölüm Akademik ve/veya teknolojik bilimsel makale
Yazarlar

Belgin Türkay

Fatih Küçüktezcan Bu kişi benim

Alper Bulut Bu kişi benim

Yayımlanma Tarihi 1 Haziran 2011
Gönderilme Tarihi 14 Eylül 2012
Yayımlandığı Sayı Yıl 2011 Cilt: 1 Sayı: 1

Kaynak Göster

APA Türkay, B., Küçüktezcan, F., & Bulut, A. (2011). Elektrik Enerjisinin Bölgeler Arası Alışverişinin Optimizasyonu / Optimization of Inter Area Transfer Capability on Power Systems. EMO Bilimsel Dergi, 1(1), 31-38.
AMA Türkay B, Küçüktezcan F, Bulut A. Elektrik Enerjisinin Bölgeler Arası Alışverişinin Optimizasyonu / Optimization of Inter Area Transfer Capability on Power Systems. EMO Bilimsel Dergi. Haziran 2011;1(1):31-38.
Chicago Türkay, Belgin, Fatih Küçüktezcan, ve Alper Bulut. “Elektrik Enerjisinin Bölgeler Arası Alışverişinin Optimizasyonu / Optimization of Inter Area Transfer Capability on Power Systems”. EMO Bilimsel Dergi 1, sy. 1 (Haziran 2011): 31-38.
EndNote Türkay B, Küçüktezcan F, Bulut A (01 Haziran 2011) Elektrik Enerjisinin Bölgeler Arası Alışverişinin Optimizasyonu / Optimization of Inter Area Transfer Capability on Power Systems. EMO Bilimsel Dergi 1 1 31–38.
IEEE B. Türkay, F. Küçüktezcan, ve A. Bulut, “Elektrik Enerjisinin Bölgeler Arası Alışverişinin Optimizasyonu / Optimization of Inter Area Transfer Capability on Power Systems”, EMO Bilimsel Dergi, c. 1, sy. 1, ss. 31–38, 2011.
ISNAD Türkay, Belgin vd. “Elektrik Enerjisinin Bölgeler Arası Alışverişinin Optimizasyonu / Optimization of Inter Area Transfer Capability on Power Systems”. EMO Bilimsel Dergi 1/1 (Haziran 2011), 31-38.
JAMA Türkay B, Küçüktezcan F, Bulut A. Elektrik Enerjisinin Bölgeler Arası Alışverişinin Optimizasyonu / Optimization of Inter Area Transfer Capability on Power Systems. EMO Bilimsel Dergi. 2011;1:31–38.
MLA Türkay, Belgin vd. “Elektrik Enerjisinin Bölgeler Arası Alışverişinin Optimizasyonu / Optimization of Inter Area Transfer Capability on Power Systems”. EMO Bilimsel Dergi, c. 1, sy. 1, 2011, ss. 31-38.
Vancouver Türkay B, Küçüktezcan F, Bulut A. Elektrik Enerjisinin Bölgeler Arası Alışverişinin Optimizasyonu / Optimization of Inter Area Transfer Capability on Power Systems. EMO Bilimsel Dergi. 2011;1(1):31-8.

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