Control of power flow and voltage in parallel working electrical GRIDS

• Autorzy: Kylymchuk A. V. , Rubanenko O. E. , Teptia V. V. , Sikorska O. E. , Kozhamberdiyeva M. , Gromaszek K. , Askarova N.

Identyfikatory

DOI

10.15199/48.2017.03.21

Warianty tytułu

PL

Sterowanie przepływem mocy i napięcia w sieciach energetycznych pracujących równolegle

• Języki publikacji: EN

Abstrakty

EN

A method for determining optimal locations joining cross-transformer in the electrical distribution network, which is based on compensation non-uniformity parallel working electrical networks and method for determining optimal values reactive component of the transformation coefficients transformer connections in electrical distribution networks by taking into account cross-corner shifting transformers allowing the use of these factors in the optimal management of power flows to reduce losses of power and electricity distribution network or, depending on the problem in the transmission and distribution electrical grids.

PL

W pracy przedstawiono metodę określania optymalnego miejsca łączenia krzyżowego transformatora sieci dystrybucji elektrycznej. Jest ona oparta na kompensacji niejednorodności równoległej pracy sieci elektrycznych i metodzie określania optymalnych wartości współczynników transformacji dla składowej biernej, przyłączy transformatorowych w sieciach dystrybucyjnych. Uwzględniono transformatory cross-corner shifting, pozwalające na korzystanie z tych czynników w optymalnym zarządzaniu przepływem energii, celem zmniejszenia strat w sieciach dystrybucji energii elektrycznej.

Słowa kluczowe

EN

cross-transformer; electrical distribution; phase shift angle; power loss

PL

transformator krzyżowy; dystrybucja energii; kąt przesunięcia fazowego

• Wydawca: Wydawnictwo SIGMA-NOT
• Czasopismo: Przegląd Elektrotechniczny
• Rocznik: 2017
• Tom: R. 93, nr 3
• Strony: 88--92
• Opis fizyczny: Bibliogr. 19 poz., rys., tab., wykr.

Twórcy

autor

Kylymchuk A. V.

• Department of Relay Protection and Automation service, Public joint-stock company “Rivneoblenergo”, 71 Knyazya Volodimira, Rivne, 33000, Ukraine

autor

Rubanenko O. E.

• Department of Electrical Stations and Systems, Vinnytsia National Technical University, 95 Khmelnitskoye Shose, Vinnytsia, 21021, Ukraine

autor

Teptia V. V.

• Department of Electrical Stations and Systems, Vinnytsia National Technical University, 95 Khmelnitskoye Shose, Vinnytsia, 21021, Ukraine

autor

Sikorska O. E.

• Department of Electrical Stations and Systems, Vinnytsia National Technical University, 95 Khmelnitskoye Shose, Vinnytsia, 21021, Ukraine

autor

Kozhamberdiyeva M.

• Almaty University of Power Engineering & Telecommunications, 126 Baytursynova, 050013 Almaty, Kazakhstan

autor

Gromaszek K.

• Faculty of Electrical Engineering and Computer Science, Lublin University of Technology, ul. Nadbystrzycka 38a, 20-618 Lublin, Poland

autor

Askarova N.

• Kazakh National Research Technical University after K.I. Satpayeva, 22 Satbaev Street, 050013, Almaty City, Kazakhstan

Bibliografia

• [1] Babu ,P.R., Sushma,B., Operation and control of electrical distribution system with extra voltage to minimize the losses, Power, Energy and Control (ICPEC), 2013 International Conference on, (2013), 165–169
• [2] Bekaert D., Meeus L., Van Hertem D., Delarue E., Delvaux B., Kupper G., Belmans R., D'haeseleer W., Deketelaere K., Proost S., How to increase cross border transmission capacity? A case study: Belgium, Energy Market, 6th International Conference on the European, (2009), 1–6
• [3] Belvanis, M., W Bell, K. R., Use of phase-shifting transformers on the Transmission Network in Great Britain, Universities Power Engineering Conference (UPEC), 2010 45th International, (2010), 1–5
• [4] Dobrovolska L.N., Yaroshchuk I.V. Analysis methods of distribution power losses in power systems, Technical electrodynamics, (2009), n.5, 58-62
• [5] El Hraiec,A., Ben-Kilani,K., Elleuch, M., Control of parallel EHV interconnection lines using Phase Shifting Transformers, Multi-Conference on Systems, Signals & Devices (SSD), 2014 11th International, (2014), 1–7
• [6] Holmskyy V.G. Calculation and optimization regimes electric networks, Moscow: Higher School, (1975), 280-281
• [7] Hurlet, P., Riboud, J. C., Margoloff, J., Tanguy, A., French experience in phase shifting transformers, Cigre, (2006), A2- 204
• [8] Ivan M., Wójcik W, Firago V., Komada P., Pomiar stężenia CO z wykorzystaniem metod TDLAS w bliskiej podczerwieni, Przegląd Elektrotechniczny, 3 (2008): 238-240
• [9] Jakushokas, R, Friedman E., G., Power Network Optimization Based on Link Breaking Methodology, IEEE Transactions on Very Large Scale Integration (VLSI) Systems, 21 (2013), n.5, 983–987
• [10] Kylymchuk, A., Lezhniuk, P., Rubanenko, O., Reduction of Additional Losses of Electric Energy in Parallel Operating Non- Uniform Electrical Grids Taking into Account Non-Uniformity and Sensitivity, International Journal of Energy Policy and Management, 1 (2015), n.1, 1–5
• [11] Lezhniuk P., Rubanenko, O., Kylymchuk, A., Optimal control of mutual impact of electric grids for the reduction of their electric energy losses, Eastern-European Journal of Enterprise Technologies, 70 (2014), n.4/8, 4–11
• [12] Lezhniuk P.D., Rubanenko O.E., Kylymchuk A.V. Reduction of additional losses in the power grids using cross-transformers. Energy: economics, technology, ecology, (2014), n.3, 7-14
• [13] Mohsin, Q. K., Xiangning Lin, Zhicheng Wang, Sunday, O., Khalid, M. S., Peiwen Zheng, Iraq Network 400kV, 50Hz Interconnect with Iran, Turkey and Syria Using Phase-Shifting Transformers in Control and Limit Power Flow of Countries, Power and Energy Engineering Conference (APPEEC), 2014 IEEE PES Asia-Pacific, (2014), 1–6
• [14] Ogahara, R., Kawaura, Y., Iwamoto, S., Kamikawa, N., Namba, M., Power Flow Adjustment Planning Using Phase Shifting Transformers for Long-Term Generation Outages, Electrical Engineering in Japan, 192 (2015), n.2, 12–21
• [15] Olshvang M.V. Features Cross-transformer technology energy transportation networks 110-765 kV, Electro, (2004), n.2, 6-12
• [16] Shuvatov T., Suleimenov B., Komada P. 2012. Gas turbine fault diagnostic system based on fuzzy logic. Informatyka, Automatyka, Pomiary w Gospodarce i Ochronie Środowiska, 2012(3), 40-42
• [17] Siddiqui, A. S., Khan, S., Ahsan, S., Khan, M. I. Annamalai, A., Application of phase shifting transformer in Indian Network, International Conference of Green Technologies (ICGT), (2012), 186–191
• [18] Suleimanov, V.M., В. М., Katsadze, T. L. Electrical networks and systems, NTU “KPI”, Kyiv, Ukraine, (2008), 456-457
• [19] Terzija, V., Valverde, V., Deyu Cai, G., Regulski, P., Madani, V., Fitch, J., Skok, S., Becovic, M. M., Phadce A., Wide-Area Monitoring, Protection and Control of Future Electric Power Networks, Proceedings of the IEEE, 99 (2011), n.1, 80–93

Uwagi

Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).