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Tytuł artykułu

The influence of distributed power sources on active power loss in the microgrid

Wybrane pełne teksty z tego czasopisma
Identyfikatory
URI
10.15199/48.2017.03.25
Warianty tytułu
PL
Wpływ rozproszonych źródeł energii na straty mocy czynnej w sieciach microgrid
Języki publikacji
EN
Abstrakty
EN
One of methods of active power loss decrease in the electric microgrids of electrical power system that is based on the mutually agreed use of polytypic sources of the distributed generation is presented in this article. This paper presents and solves the problem of mode optimization of the microgrid according to the criteria of active power loss decrease of in the branches of equivalent network in the microgrid by the way of electric power regulation, generated by the hydropowerplant and choice of available hydropowerplant with the help of which control of the mode should be done in conformity with the current parameters of the nodal loads and generation of the distributed sources of the electric power.
PL
W artykule zaproponowano jedną z metod zmniejszenia strat mocy czynnej w sieciach microgrid systemu elektroenergetycznego, opartego na uzgodnionym wykorzystaniu zróżnicowanych źródeł rozproszonych. W pracy przedstawiono i rozwiązano problem optymalizacji microgrid zgodnie z kryterium strat mocy czynnej w gałęziach równoważnej sieci microgrid, metodą elektrycznej regulacji mocy, Źródłem generowanej mocy kompensayjnej jest szczytowa elektrownia wodna, natomiast algorytm dokonuje wyboru trybu sterowania, celem wykonania go zgodnie z obowiązującymi parametrami obciążeń w węzłach i generacji rozproszonej źródeł energii elektrycznej.
Rocznik
Strony
107--112
Opis fizyczny
Bibliogr. 22 poz., rys., tab., wykr.
Twórcy
  • Vinnytsia National Technical University, Khmelnytske Shose 95, 21021 Vinnytsia, Ukraine
autor
  • Vinnytsia National Technical University, Khmelnytske Shose 95, 21021 Vinnytsia, Ukraine
  • Vinnytsia National Technical University, Khmelnytske Shose 95, 21021 Vinnytsia, Ukraine
autor
  • Faculty of Electrical Engineering and Computer Science, Lublin University of Technology, ul. Nadbystrzycka 38A, 20-618 Lublin, Poland
autor
  • Faculty of Electrical Engineering and Computer Science, Lublin University of Technology, ul. Nadbystrzycka 38A, 20-618 Lublin, Poland
  • Faculty of Electrical Engineering and Computer Science, Lublin University of Technology, ul. Nadbystrzycka 38A, 20-618 Lublin, Poland
autor
  • Kazakh National Research Technical University after K.I. Satpayeva, 22 Satbaev Street, 050013, Almaty City, Kazakhstan
autor
  • Faculty of Electrical Engineering and Computer Science, Lublin University of Technology, ul. Nadbystrzycka 38A, 20-618 Lublin, Poland
Bibliografia
  • [1] Masters C.L., Voltage rise: the big issue when connecting embedded generation to long 11kV overhead lines, Power Engineering Journal, 1 (2002), n.14, 5-12
  • [2] IEEE standard for interconnecting distributed resources with electric power systems, IEEE standard 1547TM -2003.
  • [3] Tran K., Vaziri M., Effects of dispersed generation (DG) on distribution systems, Proc. of IEEE Power Engineering Society General Meeting, 3 (2005), 2173-2178
  • [4] Kiprakis A. E., Wallace A. R., Maximizing energy capture from distributed generators in weak networks, IEEE Proceedings on Generation Transmission and Distribution, 151 (2004), n.5, 611-618
  • [5] Kim T. E., Kim J., Voltage regulation coordination of distributed generation system in distribution system, Proc. of IEEE Power Engineering Society Summer Meeting, 1 (2001), 480-484
  • [6] Kovalchuk О., Nikitorovych О., Lezhniyk P., Kulyk V., HPS in the local electric systems with dispersed generating, Hydroenergetics of Ukraine, 1 (2011), 54-58
  • [7] Gonen T., Electric power distribution system engineering, 2nd Edition, CRC Press, (2007), 127-129
  • [8] Lezhniyk P. D., Rubanenko О. E., Kulymchuk А. V., Reduction of additional losses of electric power in the electric grids caused by their interaction, Vysnyk Vinnitsa Polytechnic Institute, 5 (2013), 48–52
  • [9] Kim T. E., Kim J., Considerations for the feasible operating range of distributed generation interconnected to power distribution system, Proc. of IEEE Power Engineering Society Summer Meeting, 1 (2002), 42-48
  • [10] Choi J-Ho, Kim J., Advanced voltage regulation method at the power distribution systems interconnected with dispersed storage and generation systems, IEEE Trans. Power Delivery, 15(2000), n.2, 691-696
  • [11] Scott N.C., Atkinson D.J., Morrell J. E.,Use of load control to regulate voltage on distribution networks with embedded generation”, IEEE Trans. Power Systems, 17 (2002), no.2, 510- 515
  • [12] Niknam T., Ranjbar A.M., Shirani A.R., Impact of distributed generation on Volt/ Var control in distribution Networks, Proc. IEEE Bologna Power Tech Conference, 3 (2003), 23-26
  • [13] Batrinu F., Carpaneto E., Chicco G. et all, New nested evolutionary programming approach for voltage control optimization with distributed generation, Proc. IEEE Mediterranean Electrotechnical Conference, 3 (2004), 1007- 1010
  • [14] Enslin J., Heskes P., Harmonic Interaction Between a Large Number of Distributed Power Inverters and the Distribution Network, IEEE Transaction on power electronics, 19 (2004), n.6, 1586-1593
  • [15] Jung J., Onen A., Arghandeh R., Broadwater R., Coordinated control of automated devices and photovoltaic generators for voltage rise mitigation in power distribution circuits, Renewable Energy, 66 (2014), 532-540
  • [16] Minchala-Avila L., Garza-Castanon L., Vargas-Martınez A., Zhang Y., A review of optimal control techniques applied to the energy management and control of microgrids, Proc. of the 5th International Conference on Sustainable Energy Information Technology (SEIT), 52 (2015), 780-787
  • [17] Hrisheekesha P., Sharma J., Evolutionary Algorithm Based Optimal Control in Distribution System with Dispersed Generation, International Journal of Computer Applications, 27 (2010), n.14, 31-37
  • [18] Pukach A., Teslyuk V., Ivantsiv R. A., Komada P., Method and means of measuring small quantities of electrical resistance, Informatyka, Automatyka, Pomiary w Gospodarce i Ochronie Środowiska, 4 (2012), 14-16
  • [19] Zyska T., Lozbin V., Analiza możliwości stosowania efektów termoelektrycznych do badań termoogniw, PRZEGLĄD ELEKTROTECHNICZNY 3(2008), 32-34
  • [18] Galzina D., Voltage Quality Improvement Using Solar Photovoltaic System, Journal of Sustainable Development of Energy, Water and Environment Systems, 3 (2015), n.2, 140- 150
  • [19] Lezhniyk P., Rubanenko О., Gunko І., Techical Sciences, Vysnyk Khmelnytsky National Technical University. Series, n.2, pp.134-139, 2015.
  • [20] Danylov-Danylian V., Global problem of fresh water deficits, Age of globalization, 1 (2008), 45-56
  • [21] Lezhniyk P., Rubnenko О., Nikitorovych О., The operative diagnosticating of high-voltage equipment is in the tasks of optimal management of the modes of electroenergy systems, Technical electrodynamics, (2012), n.3, 35-36
  • [22] National standard 29322-2014 (IEC 60038: 2009), the voltage standard, Moscow, Russian Federation, (2015), 16-17
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-a2c33b6a-8d95-4d88-bba8-1fdea79466a8
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