Impact of phase shifting transformers on cross-border power flows in the Central and Eastern Europe region

Korab, R.; Owczarek, R.

doi:10.1515/bpasts-2016-0014

Artykuł - szczegóły

Tytuł artykułu

Impact of phase shifting transformers on cross-border power flows in the Central and Eastern Europe region

Autorzy

Korab R. , Owczarek R.

Treść / Zawartość

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DOI

10.1515/bpasts-2016-0014

Warianty tytułu

Języki publikacji

Abstrakty

Unscheduled power flows are a serious problem for the Central and Eastern Europe (CEE) region. One method of reducing these undesirable flows relies on the use of phase shifting transformers (PSTs). This paper presents how the installation of PSTs on the Polish-German and Czech-German borders affects cross-border power flows in the CEE region, as well as interactions between these devices. The essential parameters proposed for PSTs are based on the effects arising from the application of PSTs on the border between Poland and Germany. The results demonstrate that the use of PSTs in the CEE region can provide effective control of active power flows in tie-lines and significantly reduce unscheduled flows. However, the operation of these devices must be coordinated in order to achieve maximum controllability and to guarantee the secure operation of the interconnected systems.

Słowa kluczowe

phase shifting transformers power flow control cross-border power flows unscheduled flows tie-lines

transformator sterowanie przepływem mocy przesunięcie fazowe energia przepływu przepływ mocy przepływy nieplanowe

Wydawca

Polska Akademia Nauk, Wydział IV Nauk Technicznych

Czasopismo

Bulletin of the Polish Academy of Sciences. Technical Sciences

Rocznik

2016

Tom

Vol. 64, nr 1

Strony

127--133

Opis fizyczny

Bibliogr. 25 poz., rys., wykr., tab.

Twórcy

autor

Korab R.

Institute of Power System and Control, Silesian University of Technology, 2 Krzywoustego St., 44-100 Gliwice, Poland

autor

Owczarek R.

robert.owczarek@polsl.pl

Institute of Power System and Control, Silesian University of Technology, 2 Krzywoustego St., 44-100 Gliwice, Poland

Bibliografia

[1] Bidding Zones Definition, http://www.pse.pl/uploads/pliki/17225 Position of CEPS MAVIR PSEO SEPS-Bidding Zones Definition.pdf (March 2012).
[2] Unplanned Flows in the CEE region, http://www.pse.pl/uploads/pliki/Unplanned flows in the CEE region.pdf (January 2013).
[3] H. Majchrzak and K. Purchała, “Unplanned power flows and their impact on power system security”, Electro-energetics - the Present and Development 3-4, 8-15 (2012), (in Polish).
[4] H. Majchrzak, G. Tomasik, D. Owczarek, and K. Purchała, “Cross-border unplanned flows in European power system as obstacle towards integrated electricity market”, Proc. Cigre 7th Southern Africa Regional Conf. 1, CD-ROM (2013).
[5] D. Rasolomampionona, “Influence of multiobjective optimisation of phase shifting transformer parameters on load and frequency control performance”, Archives of Energetics 39 (1), 147-164 (2009), (in Polish).
[6] P.H. Kim, T. Bach, and L.A. Tuan, “Optimal placement of FACTS in northern power transmission system of Vietnam using an OPF formulation”, Proc. IEEE Large Engineering Systems Conf. on Power Engineering 1, 112-117 (2007).
[7] J. Machowski, J.W. Białek, and J.R. Bumby, Power System Dynamic: Stability and Control, John Wiley and Sons, New York, 2008.
[8] Ł. Nogal and J. Machowski, “WAMS - based control of series FACTS devices installed in tie-lines of interconnected power system”, Archives Electrical Engineering 59 (3-4), 121-140 (2010).
[9] D. Rasolomampionona and S. Anwar, “Interaction between phase shifting transformers installed in the tie-lines of interconnected power systems and automatic frequency controllers”, Int. J. Electr. Power Energy Syst. 33 (8), 1351-1360 (2011).
[10] K. Szubert, “Influence of phase shift transformer on distance protection’s operation”, Przegląd Elektrotechniczny 7, 177-181 (2013).
[11] Regional Investment Plan Continental Central East, https://www.entsoe.eu/major-projects/ten-year-network-development-plan/tyndp-2014/Documents/RgIP%20CCE%202014FINAL.pdf (2014).
[12] H. Kocot, R. Korab, W. Lubicki, M. Przygrodzki, G. Tomasik, and K. Żmuda, “Improving the cross-border transmission capacity of Polish power system by using phase shifting transformers”, Proc. 45th Cigre Session 1, CD-ROM (2014).
[13] J. Verboomen, D. Van Hertem, P.H. Schavemaker, W.L. Kling, and R. Belmans, “Phase shifting transformers: principles and applications”, Proc. IEEE Int. Conf. on Future Power Systems 1, 1-6 (2005).
[14] P. Bresesti, M. Sforna, V. Allegranza, D. Canever, and R. Vailati, “Application of phase shifting transformers for a secure and efficient operation of the interconnection corridors”, Proc. IEEE Power Engineering Society General Meeting 2, 1192-1197 (2004).
[15] D. Hluben and M. Kolcun, “Use of PST in transmission system of the Slovak Republic”, Przegląd Elektrotechniczny 2, 79-82 (2011).
[16] J. Ptacek, P. Modlitba, S. Vnoucek, and J. Cermak, “Possibilities of applying phase-shifting transformers in the electric power system of the Czech Republic”, Proc. 41st Cigre Session 1, CD-ROM (2006).
[17] W.L. Kling, D.A.M. Klaar, J.H. Schuld, A.J.L.M. Kanters, C.G.A. Koreman, H.F. Reijnders, and C.J.G. Spoorenberg, “Phase shifting transformers installed in the Netherlands in order to increase available international transmission capacity”, Proc. 40th Cigre Session 1, CD-ROM (2004).
[18] J. Warichet, J.-L. Leonard, J. Rimez, O. Bronckart, and J. Van Hecke “Grid implementation and operational use of large phase-shifting transformers in the Belgian HV grid to cope with international network challenges”, Proc. 43rd Cigre Session 1, CD-ROM (2010).
[19] E.M. Carlini, G. Manduzio, and D. Bonmann, “Power flow control on the Italian network by means of phase-shifting transformers”, Proc. 41st Cigre Session 1, CD-ROM (2006).
[20] D. Van Hertem, “The use of power flow controlling devices in the liberalized market”, PhD Thesis, Katholieke Univerisitetit Leuven, Heverlee, 2009.
[21] X.F. Wang, Y. Song, and M. Irving, Modern Power Systems Analysis, Springer, New York, 2008.
[22] J. Verboomen, “Optimisation of transmission systems by use of phase shifting transformers”, PhD Thesis, Technische Universiteit Delft, Delft, 2008.
[23] J. Verboomen, D. Van Hertem, P.H. Schavemaker, F. Spaan, J.M. Delince, R. Belmans, and W.L. Kling, “Phase shifter coordination for optimal transmission capacity using particle swarm optimization”, Electr. Power Syst. Res. 78 (9), 1648-1653 (2008).
[24] M. Szczepanik and T. Burczyński, “Swarm optimization of stiffeners locations in 2-D structures”, Bull. Pol. Ac.: Tech. 60 (2), 241-246 (2012).
[25] B. Ufnalski and L.M. Grzesiak, “Particle swarm optimization of artificial-neural-network-based on-line trained speed controller for battery electric vehicle”, Bull. Pol. Ac.: Tech. 60 (3), 661-667 (2012).

Uwagi

Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.

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Bibliografia

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