PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Using nodal specific transportation costs to determine economically beneficial distributed generation source location areas in radial electrical power distribution systems

Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
PL
Wykorzystanie węzłowych kosztów transportu do określenia ekonomicznie wykonalnych lokalizacji źródeł generacji rozproszonej w promieniowych sieciach dystrybucyjnych
Języki publikacji
EN
Abstrakty
EN
It has been suggested using the values of nodal specific transportation cost (STC) in order to determine economically beneficial distributed generation source (DGS) location areas with the focus on radial electrical power distribution systems that are powered by a systemic electrical power supply unit. According to electrical systems, STC is taken to mean active power expenditures for transmitting a unit of active or reactive power to the point of its use.
PL
Zaproponowano wykorzystanie wartości węzłowych kosztów transportu specyficznego do określenia ekonomicznie wykonalnych lokalizacji źródeł generacji rozproszonej, ze szczególnym uwzględnieniem radialnych sieci dystrybucyjnych zasilanych z systemu. Przez określone koszty transportu rozumie się koszty energii czynnej do przesłania jednostki mocy czynnej lub biernej do miejsca jej poboru.
Rocznik
Strony
101--105
Opis fizyczny
Bibliogr. 17 poz., rys.
Twórcy
  • National University of Life and Environmental Sciences of Ukraine, Heroiv Oborony str., 15, Kyiv, 03041, Ukraine
  • National University of Life and Environmental Sciences of Ukraine, Heroiv Oborony str., 15, Kyiv, 03041, Ukraine
Bibliografia
  • [1] Subramanyam T. C., Tulasi Ram S. S., Subrahmanyam J. B. V., Dual stage approach for optimal sizing and siting of fuel cell in distributed generation systems, Comput. Electr. Eng., 69 (2018), 676-689
  • [2] Singh N., Ghosh S., Murari K., Optimal Sizing and Placement of DG in a Radial Distribution Network using Sensitivity based Methods, International Electrical Engineering Journal, 6 (2015), No. 1, 1727-1734
  • [3] Kumar M., Kumar A., Sandhu K. S., Impact of distributed generation on nodal prices in hybrid electricity market, Materials Today: Proceedings, 5 (2018), Issue 1, 830-840
  • [4] Stanelyte Daiva, Gudzius Saulius, Andriusiene Liudmila, Energy Distribution Planning Models Taxonomy and Methods of Distributed Generation Systems, Energy Procedia, 107 (2017), 275-283
  • [5] Jegadeesan M., Keerthana V., Optimal Sizing and Placement of Distributed Generation in Radial Distribution Feeder Using Analytical Approach, International Journal of Innovative Research in Science, Engineering and Technology, 3 (2014), Issue 3, 358-364
  • [6] Priyanka Das, Optimal Sizing And Placement Of Distributed Generation In A Radial Distribution System Using Loss Sensitivity Factor And Firefly Algorithm, International Journal of scientific research and management (IJSRM), 3 (2015), Issue 4, 2611-2618
  • [7] Kasaei M. J., Optimal placement of distributed generation and capacitor in distribution networks by ant colony algorithm, International Journal on Technical and Physical Problems of Engineering (IJTPE), 6 (2014), No. 3, Issue 20, 52-56
  • [8] Lezhniuk P. D., Rubanenko O. E., Malogulko Yu. V., Optimization of the functioning of the dispersed energy sources in the local electrical systems, Bulletin NTU KHPI, (2014), No. 60(1102), 68-77
  • [9] Chechushkov D. A., Panikovskaya T. Yu., Bun'kova E. A., A method for optimal deployment of distributed power generation sources to enhance the reliability of power supply, Industrial Power Engineering, (2014), No. 9, 17-21
  • [10] Popov V. A., Scientific fundamentals for constructing distribution systems with distributed generation sources taking into consideration of information uncertainty: dis. … doctor of the technical sciences: 05.14.02 / Institute of electrodynamics of the Nation Academy of Sciences of Ukraine, Kiev, (2015), 310 p
  • [11] Acharya N., Mahant P., Mitulananthan N., An analytical approach for DG allocation in primary distribution network, International Journal Electrical Power and Energy Systems, 28 (2006), Issue 10, 669-678
  • [12] Elsaiah S., Benidris M., Mitra J., Analytical approach for placement and sizing of distributed generation on distribution systems, IET Generation, Transmission & Distribution, 8 (2014), Issue 6, 1039-1049
  • [13] Wang Caisheng, Nehrir M. H., Analytical approaches for optimal placement of distributed generation sources in power systems, IEEE Transactions on Power Systems, 19 (2004), Issue 4, 2068-2076
  • [14] Skripnik A., Kozhan D., Kovaleva V., Modification of the method of Newton and its use in modes calculation electricity distribution networks with voltage up to 110 kV, Innovations in agriculture, (2015), No. 4(14), 14-20
  • [15] Skrypnyck A., Kozhan D., Determination of economically perfect places of location and based values of power of sources of distributed generation in distribution electric networks which feed from system electrical supply, Bulletin of the Kharkiv National Technical University of Agriculture named after Peter Vasylenko, (2017), Issue 186, 114-118
  • [16] Skrypnyck A., Golub B., Kozhan D., Simulation of the established and operating modes of distribution electric networks with voltage 10 – 110 kV, Mechanization and electrification of agriculture, (2018), No. 7, 134-145
  • [17] Kozhan D., Suggestions for determining of location the sources of distributed generation and the magnitudes of their power in radial electric networks with voltage of 35 kV, Journal of Rural Production Research, Machinery & Energetics, 10 (2019), No. 2, 127-133
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-fc62b214-06a7-4666-912a-7cdbf90dec7b
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.