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Analysis of the neutral grounding modes influence on the reliability characteristics of local systems with renewable energy sources

Treść / Zawartość
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
When comparing the performance indicators of electrical networks with different types of neutral grounding, along with the fulfilment of the requirement to ensure reliability of power supply to consumers, serious attention is drawn to the main network parameters influencing the performance of power supply systems. Analysis of research and its results, reported above, on the influence of the neutral ground of power networks on the reliability and electrical safety conditions of the power supply systems as a whole, on the damage of distribution networks and electrical equipment as well as on the working capacity of relay protection devices, provides an opportunity to estimate each specific operation mode of the neutral and to develop recommendations aimed at strengthening the positive indicators of the corresponding modes. Other things being equal, reliability of power supply to electrical receivers or reliability of distribution networks is mainly determined by the damage to network elements and the performance of relay protection devices. The degree of influence of these factors on the reliability of distribution networks depends on the neutral mode, which in turn determines the level of internal overvoltages and the nature of transient processes at earth fault.
Czasopismo
Rocznik
Strony
45--56
Opis fizyczny
Bibliogr. 35 poz., rys., tab.
Twórcy
  • Department of Renewable Energy, Igor Sikorsky Kyiv Polytechnic Institute, Prosp. Peremohy, 37, Kyiv, Ukraine, 03056
  • Electric Power Department, Railway Research Institute, Chlopickiego str., 50, Warsaw, Poland
  • Electric Power Department, Railway Research Institute, Chlopickiego str., 50, Warsaw, Poland
  • Department of the Electrical Engineering and Electromechanic, National Metallurgical Academy of Ukraine, Gagarina ave., Dnipro, Ukraine, 49600
  • Department of Electrical Engineering, Dnipro University of Technology, av. Dmytra Yavornytskoho, 19, Dnipro, Ukraine, 49005
Bibliografia
  • 1. Lorenc J, Andruszkiewicz J, Handke J, Staszak B. MV network earth failure parameters measurement as factor supporting quality of network operation in case of renewable sources presence. IOP Conference Series: Earth and Environmental Science. 2nd International Conference on the Sustainable Energy and Environmental Development. 2019;214. https://doi.org/10.1088/1755-1315/214/1/012061.
  • 2. Arsentiev MO, Arsentiev OV, Kryukov AV, Chan ZKh. Distributed generation in railway power supply systems. Irkutsk: IrGUPS, 2013.
  • 3. Kachan Y, Kuznetsov V. On the practical application of renewable energy sources in non-traction consumer power systems. Mining electromechanics and automation. Dnipro: Dnipro University of Technolog. 2019; 102: 21-25.
  • 4. Kachan Y, Kuznetsov V. Experimental wind power and photovoltaic plants as a basis for researching to use renewable energy sources in the power supply systems for non-traction consumers. Theory and practice of metallurgy. Dnipro: NMetAU. 2019; 2(119): 54-60.
  • 5. Sosnina EN, Shaluho AV. Issues of the efficient use of renewable energy sources in the local power supply system of consumers.Vestn. SAMAR. PUB TECH University Engineering Sciences. 2012; 3(35): 214.
  • 6. Djairam D, Grizonic R, Zhuang Q, Smit JJ. Developing the physical layer of future power grids required for automated asset management and renewable energy integration. Proceedings of 2012 IEEE International Conference on Condition Monitoring and Diagnosis (Ieee Cmd 2012). 2012 509-512.
  • 7. Jia Q, Dong X, Mirsaeidi S. A traveling-wave-based line protection strategy against single-line-to-ground failures in active distribution networks. International Journal of Electrical Power & Energy Systems. 2019; 107:403-411. https://doi.org/10.1016/j.ijepes. 2018.11.032.
  • 8. Banerjee G, Braun M. Analysis of the Impact on the Grounding System in 110 kV Grid during Bottom-up Network Restoration. 2018.
  • 9. Kruczek W. Interaction between a DC traction system and an AC power system through earth-return circuits railway report. 2020;186: 111-118. https://doi.org/10.36137/1865E.
  • 10. Serdiuk T, Kuznetsov V, Kuznetsova Y. About Electromagnetic Compatibility of Rail Circuits with the Traction Supply System of Railway. In 2018 IEEE 3rd International Conference on Intelligent Energy and Power Systems, IEPS 2018 - Proceedings, 2018-January: 59-63. Institute of Electrical and Electronics Engineers Inc. https://doi.org/10.1109/IEPS.2018.8559541.
  • 11. Perekrest A, Chornyi O, Mur O, Nikolenko A, Kuznetsov V, Kuznetsova Y. Preparation and preliminary analysis of data on energy consumption by municipal buildings. Eastern-European Journal of Enterprise Technologies. 2018;6(8-96):32-42. https://doi.org/10.15587/1729-4061.2018.147485.
  • 12. Kuzenkov O, Kuznetsov V, Tryputen N. Analysis of phase trajectories of the third - Order dynamic objects. In 2019 IEEE 2nd Ukraine Conference on Electrical and Computer Engineering, UKRCON 2019, - Proceedings, 1235-1243. Institute of Electrical and Electronics Engineers Inc. 2019 https://doi.org/10.1109/UKRCON.2019.8879819.
  • 13. Hare J, Shi X, Gupta S, Bazzi A. Failure diagnostics in smart micro-grids: A survey. Renewable & Sustainable Energy Reviews. 2016; 60:1114-1124. https://doi.org/10.1016/j.rser.2016.01.122.
  • 14. Kuznetsov V, Tryputen N, Kuznetsova Y. Evaluating the Effect of Electric Power Quality upon the Efficiency of Electric Power Consumption. In 2019 IEEE 2nd Ukraine Conference on Electrical and Computer Engineering, UKRCON 2019 - Proceedings, 556–561. Institute of Electrical and Electronics Engineers Inc. https://doi.org/10.1109/UKRCON.2019.8879841.
  • 15. Tifour B, Moussa B, Ahmed H, Camel T. Monitoring and energy management approach for a fuel cell hybrid electric vehicle. Diagnostyka. 2020:21(3):15-29. https://doi.org/10.29354/diag/123996.
  • 16. Budahs M, Rozenkrons J, Zviedritis M. Latvia's New Energostandard "Medium Voltage Network Neutral Regimes". 2014 9th International Electric Power Quality and Supply Reliability Conference. 2014: 363-366.
  • 17. Colella P, Napoli R, Pons E, Tommasini R, Barresi A, Cafaro G, De Simone A, Di Silvestre ML, Martirano L, Montegiglio P, Morozova E, Parise G, Parise L, Sanseverino ER, Torelli F, Tummolillo F, Valtorta G, Zizzo G. Current and Voltage Behavior During a Failure in a HV / MV System: Methods and Measurements. 2015 Ieee 15th International Conference on Environment and Electrical Engineering . 2020: 404-409.
  • 18. Mitolo M, Musca R, Tartaglia M, Zizzo G. Electrical safety analysis in the presence of resonant grounding neutral. IEEE Transactions on Industry Applications. 2019; 55(5): 4483-4489. https://doi.org/10.1109/tia.2019.2926236.
  • 19. Wronkowicz A. Concept of diagnostics of energy networks by means of vision system. Diagnostyka. 2014;15(2):13-18.
  • 20. Lowczowski K, Lorenc J, Andruszkiewicz J, Nadolny Z, Zawodniak J. Novel earth failure protection algorithm based on MV cable screen zero sequence current filter. Energies. 2019;12(16): 3190; https://doi.org/10.3390/en12163190.
  • 21. Benguesmia HM, Ziou N, Boubakeur A. Simulation of the potential and electric field distribution on high voltage insulator using the finite element method. Diagnostyka. 2018; 19(2): 41-52, http://dx.doi.org/10.29354/diag/86414.
  • 22. Rouini A, Derbel N, Hafaifa A, Kouzou A. New approach for prediction the DC breakdown voltage using fuzzy logic controller. Diagnostyka 2018; 19 (3): 55-62. https://doi.org/10.29354/diag/92294.
  • 23. Kacejko P, Machowski, J. Short circuits in power networks. Basics of calculations. WNT, Warsaw, 1993.
  • 24. Linčiks J, Baranovskis D. Single phase earth failure location in the medium voltage distribution networks. Electrical, Control and Communication Engineering, 2009;25:13-18.
  • 25. EN 50522: 2011 Groundingof power installations exceeding 1 kV AC.
  • 26. Andersen E. Impact of zero point grounding method on surges in medium voltage networks. Prace Instytutu Energetyki 1986.
  • 27. Shkrabets FP,Kovalyov AI. Neutral modes of electrical networks. Naukovy Visnyk of NMU. 2010;1: 78-83.
  • 28. Stojanovic, ZN, & Djuric, MB An algorithm for directional earth-failure relay with no voltage inputs. Electric Power Systems Research,. 2013;96: 144-149. https://doi.org/10.1016/j.epsr.2012.11.004.
  • 29. Guo MF, Yang GJ, Huang SY. Adaptive faulty line selection based on transient characteristics for resonant groundingsystem. Electric Power Automation Equipment. 2012; 32(12):25-31.
  • 30. Ayuurzana E, Mambetzhanov AD, Takyrbashev BK, Dzhamagidze D, Petrov MI, Kuzmin AA. Evaluation of the components of the current of a single-phase earth failure during field experiments in mediumvoltage networks for various purposes. Bulletin of the Chuvash University. 2016;3:21-29.
  • 31. Wang Q, Liu X, Liu Z. Research on Diagnosis and Positioning of Single-Phase Arc Grounding Failure in the Distribution Network. 2018 Chinese Automation Congress (Cac), 2018:2141-2146.
  • 32. Kolesnikova KV, Gusev YP, Smotrov NN, Lkhamdondog, AD. The Impact of the Sequence of Measures for the Transition to a Resistive-Grounded Neutral in 6-35kV Cable Networks on Investment Profitability. In 2019 IEEE Conference of Russian Young Researchers in Electrical and Electronic Engineering (EIConRus). 2019; 992-995.
  • 33. Ravlić S, Marušić A, Havelka J. Neutral grounding in middle voltage power systems: Simulation model. In 2015 38th International Convention on Information and Communication Technology, Electronics and Microelectronics (MIPRO). 2015 1124-1130.
  • 34. Guldbrand A. System earthing. Report, Sweden. 2006.
  • 35. Vinokurova TY, Dobryagina OA, Shagurina ES, Shuin VA. Selective complex single-phase earth failure protection for distribution medium-voltage networks. Universitätsbibliothek Dortmund. New Method for Calculation of the Harmonics in the Residual Earth Failure Current in Isolated and Compensated Networks. 2015. https://doi.org/10.17877/DE290R-7398.
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-d23f67ef-d866-4295-83d7-6d0d339b9a1a
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