Procedure for reliability assessment of electricity distribution systems
DOI:
https://doi.org/10.32515/2414-3820.2024.54.215-219Keywords:
reliability indicators, electrical distribution systems, level of reliability, assessment procedureAbstract
The main objective of this study is to establish the level of reliability of electricity distribution systems, which is currently characterized by multiple problems, because, at present, these systems have a complex configuration and are affected by a significant number of refusals, conditioned by various influencing factors. To achieve the proposed objective, the most important indicators were selected, which allow estimating the level of reliability of electricity distribution systems, regardless of structure and configuration. The main results obtained are those related to the application of the proposed reliability assessment procedure for estimating reliability indicators, which are of significant importance for the operation of electricity distribution systems, thus providing the possibility of justified planning of measures to prevent refusals and increase the level of reliability of the examined systems.
References
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Referencis
1. Voronca, S.L. (2010). Risk Analysis and Risk Management. Development of Risk Indicators in Electricity Transmission Companies. Journal of Sustainable Energy, 1, 25-31 [in English].
2. Ardeleanu, M.E. (2007) Fault Localization in Cables and Accessories by Off-Line Methods. Annales of the University of Craiova, 13, pp. 25-31 [in English].
3. Kyrylenko, O. V., & Denysiuk, S. P. (2001). Modeliuvannia enerhetychnykh protsesiv u systemakh enerhopostachannia pry vyrishenni zavdan enerhozberezhennia Modeling of energy processes in power supply systems in solving energy saving problems . Zbirnyk naukovykh prats Instytutu elektrodynamiky NAN Ukrainy: Elektrodynamika - Collection of scientific papers of the Institute of Electrodynamics of the National Academy of Sciences of Ukraine: Electrodynamics. pp. 87−91. [in Ukrainian]
4. Hazi, G., & Hazi, A. (2007). Conditions for Efficient use of the 1000 V Energy Distribution. Annales of the University of Craiova, 31, pp. 25-31 [in English].
5. Erchan, F., & Mocanu, A. (2007). The Problem of the Reliability of the Electric Power Equipment. Analele Universității din Oradea, Fascicula de Energetică. In Romanian
6. Secui, D.C. (2008). The Sensitivity of the Electrical Substations Reliability Indices at the Variation of the Circuit Breakers Stucking Probability. Annals of the Oradea University. Fascicle of Energy Engineering, 14, pp. 51-57 [in English].
7. Popescu, V. (2015). Analysis of short-circuit currents in distributive electric networks. Intellectus, 2, p. 113-115. in Romanian
8. Popescu, V. (2016). Facteurs qui influence la fiabilite des systemes de distribution d,energie electrique dans le secteurs agricole. Intellectus, 3, p. 90-93. In Romanian
9. Popescu, V., Racul, A., & Burbulea, I. (2012) Reliability analysis of power distribution systems. Journal of Sustainable Energy, 3(3). p. 156-158 [in English].
10. Popescu, V., Popa, A., & Bantas, R. (2013). Reliability analysis of systems for distribution of electricity. Acta Electrotehnica, 54(5). p. 387-389.
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Copyright (c) 2024 Victor Popescu, Igor Beșleaga, Natalia Țislinscaia, Tatiana Balan, Ion Vișanu
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