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Sterowanie przepływem mocy w przekształtniku łączącym sieci DC-AC
Języki publikacji
Abstrakty
DC grids are being strongly considered as a technology to be used for future expansions of the transmission system. Voltage sourced converters (VSC) are the key equipment considered for AC/DC interconnections. However the flow from DC to AC system has to be properly set as many alternatives exists. In this article, an Optimal Power Flow (OPF) to control the flow of power in the converters interconnecting AC-DC systems is presented. The proposed OPF solution technique was tested using the CIGRE B4 DC Grid Test System.
W artykule opisano sterowanie przepływem mocy w przekształtniku łączącym sieci DC-AC. Optymalny przepływ mocy OPF był testowany w systemie sieciowym CIGRE B4 DC.
Wydawca
Czasopismo
Rocznik
Tom
Strony
46--49
Opis fizyczny
Bibliogr. 14 poz., rys., tab.
Twórcy
autor
- Foundation for the Technological Development of the Engineering Sciences (FDTE)
autor
- Federal University of ABC
autor
- State University of Sao Paulo
autor
- State University of Sao Paulo
autor
- Foundation for the Technological Development of the Engineering Sciences (FDTE)
autor
- Foundation for the Technological Development of the Engineering Sciences (FDTE)
autor
- Sao Paulo State Power Transmission Company
Bibliografia
- [1] Avaiable in: http://www.friendsofthesupergrid.eu/. Access date: July 12, (2013).
- [2] CIGRE Working Group B4-38, “Modeling and Simulation Studies to be performed during the lifecycle of HVDC Systems”, (2013).
- [3] CIGRE Working Group B4-52, “HVDC Grid Feasibility Study”, Electra, (2013).
- [4] CIGRE Working Group B4-37, “VSC Transmission”, (2005).
- [5] J. Beerten, S. Cole and R. Belmans, "Generalized Steady-State VSC MTDC Model for Sequential AC/DC Power Flow Algorithms", IEEE Transactions on Power Systems, (2012), vol. 27, pp. 821-829.
- [6] Z. Xiao-Ping, "Multiterminal voltage-sourced converter-based HVDC models for power flow analysis", IEEE Transactions on Power Delivery, (2004), vol. 19, pp. 1877-1884.
- [7] M. A. B. Horita, J. A. Jardini, M. T. Bassini, G. Y. Saiki, M. R. Cavalheiro “Load Flow Calculation in a Hybrid AC and DC Grid”, Colloquium HVDC and Power Electronics to Boost Network Performance, October 2-3, (2013), Brasilia - Brazil
- [8] T. K. Vrana, Y. Yang, D. Jovcic, S. Dennetière, J. A. Jardini, H. Saad “The CIGRE B4 DC Grid Test System”, Electra, N. 270, October, (2013).
- [9] G.W. Stagg, A.H. El-Abiad, “Computer Methods in Power System Analysis”, McGraw Hill, (1968).
- [10] Jacobson, B., Westman, B., Bahrman, M. P. “500 kV VSC Transmission System for Lines and Cables”, 2012 San Francisco Colloquium. Advances in Voltage Source Converter Technologies, (2012).
- [11] Knight, M. “Offshore Grid Technology: Technology Options and Practical Issues for Offshore Networks”, Cigré Workshop on Offshore Networks, (2011).
- [12] Fourer, R., Gay, D. M. e Kernighan, B. W. “AMPL: A modeling language for mathematical programming”, CA: Brooks/Cole- Thomson Learning, Pacific Grove, (2003).
- [13] ILOG. “CPLEX Optimization subroutine library guide and reference”, version 11.0, Incline Village, NV, USA, (2008).
- [14] R. H. Byrd, J. Nocedal, and R. A. Waltz, "KNITRO: An Integrated Package for Nonlinear Optimization" in Large-Scale Nonlinear Optimization, G. di Pillo and M. Roma, eds, pp. 35-59 (2006).
Typ dokumentu
Bibliografia
Identyfikator YADDA
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