Results of a statistical study of types of single-phase faults in low-voltage ship electrical networks

Author:

Kazhekin I. E.1ORCID,Kharitonov M. S.2

Affiliation:

1. Kaliningrad State University,

2. Kaliningrad State University

Abstract

The increase in the power supply of ships is manifested in growth of ship power plants' capacity, the total length of cable lines, and the number of electrified mechanisms. With the development of marine technology, the severity of the consequences of damage to ship electrical equipment and the costs of its maintenance and repair increase. The search for ways to improve the reliability and safety of electrical equipment should be based on design and technological solutions at the stages of its development and production, as well as an analysis of various factors that may appear during the operation of marine equipment and affect the condition of ship electrical systems. During studying these factors, it has been revealed that one of the common types of damage to electrical equipment of marine equipment is single-phase short circuits, the causes of which are varied. Preventing short circuits is labour intensive and in some cases impracticable. However, understanding the characteristics of this type of damage to low-voltage equipment is necessary to improve the reliability and safety of ship electrical systems. The conducted research is based on a survey of ship electrical mechanics. The results of the surveys have made it possible to analyze the frequency of occurrence of single-phase insulation faults, the duration of their existence, to identify the most likely places of occurrence of short circuits and equipment that is more susceptible to such damage compared to other elements of the electrical power system.

Publisher

FSEI HPE Murmansk State Technical University

Reference25 articles.

1. Borisov, V. M., Borisov, S. V. 2012. Methodology for collecting information for assessing the experimental reliability of compressor and refrigeration machines. Herald of Technological University, 15(10), pp. 222-225. EDN: OZHBEX. (In Russ.)

2. Bubnova, A. Yu., Melnikov, S. L. 2018. Comparative analysis of sociological methods of audience research. Nauchnyi Zhurnal Diskurs, 5, pp. 87-101. EDN: UQMBIW. (In Russ.)

3. Vlasov, A. B., Buev, S. A. 2013. Analysis of the reliability of electrical equipment of ships of fishing companies of the North-West. Vestnik of MSTU, 16(4), pp. 663-671. EDN: RRVIUB. (In Russ.)

4. Vlasov, A. B., Buev, S. A. 2021. Search for new methods for diagnosing the current technical condition of a ship's cable network. Proceedings of conf. Baltic Maritime Forum. In 6 Vol. Vol. 2. Marine engineering and technology. Maritime industry safety. Kaliningrad, pp. 163-168. (In Russ.)

5. Glazyuk, D. K., Shcherban, Z. A. 2022. Analysis of the accident rate of the Russian maritime fleet in the period of 2016-2021. Scientific Journal of the Far East State Technical Fisheries University, 2, pp. 49-55. EDN: ZPKCOY. (In Russ.)

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