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Warianty tytułu
Planowanie przesyłu energii z optymalnym przesyłem mocy OPF – metoda wieloobiektowa
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Abstrakty
This paper presents a methodology for transmission expansion planning using AC optimal power flow. A multi-objective framework has been considered. The objectives are to minimize the investment cost (IC), minimize the operation cost (OC) and also to minimize the power losses. The augmented ε-constraint method was used so as to solve the multi-objective mathematical programming (MMP) problem. The proposed model has been applied to Garver’s six bus test system and also to a real system of northeastern part of the Iranian national 400-kV transmission grid.
W artykule zaproponowano metodologię planowania przesyłania energii przy optymalnym przepływie mocy. Minimalizuje się koszty operacyjne i straty mocy. Wykorzystano narzędzia wieloobiektowego programowania. (Planowanie przesyłu energii z optymalnym przesyłem mocy OPF – metoda wieloobiektowa)
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Czasopismo
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Tom
Strony
192--196
Opis fizyczny
Bibliogr. 13 poz., rys., tab.
Twórcy
autor
autor
autor
- Department of Electrical Engineering, Islamshahr Branch, Islamic Azad University, Islamshahr, Iran
Bibliografia
- [1] Choi J., Mount T.D., Thomas R.J., Transmission Expansion Planning Using Contingency Criteria, IEEE Trans. Power Syst. vol. 22 (2008) n. 4, pp. 2249 – 2261.
- [2] Alguacil N., Motto A.L., Conejo A.J., Transmission Expansion Planning: a Mixed-Integer LP Approach, IEEE Trans. Power Syst. vol. 18 (2003) n. 3, pp. 1070 – 1077.
- [3] Garces L.P., et al., A Bi-level Approach to Transmission Expansion Planning Within a Market Environment, IEEE Trans. Power Syst. vol. 24 (2009) n. 3, pp. 1513 – 1522.
- [4] Roh J.H., Shahidehpour M., Wu L., Market-Based Generation and Transmission Planning With Uncertainties, IEEE Trans. Power Syst. vol. 24 (2009) n. 3, pp. 1587 – 1598.
- [5] Wu P., Xing H.C.J., The Interval Minimum Load Cutting Problem in the Process of Transmission Network Expansion Planning Considering Uncertainty in Demand. IEEE Trans Power Syst, vol. 23 (2008) n. 3, pp. 1497-1506.
- [6] Torre S.D.L., Conejo A.J., Contreras J., Transmission Expansion Planning in Electricity Markets. IEEE Trans. Power Syst, vol. 23 (, 2008) n.1. pp. 238-248.
- [7] Graeber B., Generation and transmission expansion planning in southern Africa. IEEE Trans. Power Syst, vol 14 (1999) pp. 983–988.
- [8] Kandil M., El-Debeiky S., Hasanien N., Rule-based system for determining unit locations of a developed generation expansion plan for transmission planning. IEE Proc Gener Transm Distrib, vol. 147 (2000) n. 1, pp. 62–68.
- [9] Akbari T., Zolfaghari S., Kazemi A., Multi-Stage Stochastic Transmission Expansion Planning under Load Uncertainty Using Benders Decomposition. International Review of Electrical Engineering-IREE vol 4 (2009) n. 5, pp. 976-984.
- [10] Mavrotas G., Generation of efficient solutions in Multiobjective Mathematical Programming problems using GAMS. Effective implementation of the ε-constraint method. Available from:www.gams.com/modlib/adddocs/epscm.pdf.
- [11] Miettinen K.M., Nonlinear Multiobjective Optimization. 1999, Kluwer Academic.
- [12] Cohon J., Multiobjective programming and planning. 1978: Academic Press.
- [13] Generalized Algebraic Modeling Systems (GAMS). 2011; Available from: http://www.gams.com.
Typ dokumentu
Bibliografia
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bwmeta1.element.baztech-article-BPS3-0025-0058