Scientifically Grounded Analysis Of The Factors Causing Fire Hazards That May Occur In Electric Cables
DOI:
https://doi.org/10.51699/png43944Keywords:
cable, network, load, nominal, metal, electric, aggressive environmentAbstract
Secondary fires ignited by earthquakes, are common, which can aggravate human and It is stated that a scientifically grounded analysis of the factors that may cause fire hazards in electric cables has been comprehensively studied. Special attention is paid to the process of conducting research aimed at ensuring the elimination of fires and, by identifying factors that negatively affect the operational capability of facilities and taking into account preventive measures, analyzing the consequences of fires at facilities, carrying out a comparative analysis of fires in buildings and structures based on mathematical modeling, and developing the theoretical foundations for continuously reducing the fire hazard of buildings and structures under the influence of fire and its dangerous factors through fire detection. Scientifically substantiated views are presented on preventing fires that may occur as a result of short circuits in electric cable networks by reducing the scale through eliminating the formation of a combustible environment, removing ignition sources, and blocking the possible paths through which fire may spread.
References
[1] S. Y. Kobzistyy, High Voltage Engineering: Insulation and Overvoltages in Electrical Networks. International Institute of Computer Technologies, 2007.
[2] Y. A. Kulikov, Transient Processes in Electrical Systems. NSTU; Mir; AST Publishing House, 2003.
[3] V. N. Lifanov, Electrical Insulation and Overvoltages. DVGTU, 2003.
[4] V. V. Ovchinnikov, Calculation and Analysis of Stability of Electrical Systems. VyatSU Publishing House, 2007.
[5] A. F. Zyuzin, N. Z. Pokonov, and M. V. Antonov, Installation, Operation, and Repair of Industrial Electrical Equipment. Vysshaya Shkola, 1986.
[6] E. A. Moskatov, Power Electronics. Theory and Design. Korona-Vek, 2013.
[7] L. Anghelescu, A. D. Handra, and B. M. Diaconu, “Degradation Pathways of Electrical Cable Insulation: A Review of Aging Mechanisms and Fire Hazards,” Fire, vol. 8, no. 10, p. 397, 2025.
[8] G. K. et al, “Study on Flame Spread Characteristics of Electrical Cables,” Sci. Rep., 2020.
[9] K. Kaczorek-Chrobak, Fire Properties of Electric Cables Used in Buildings. 2023.
[10] S. R. Abbas, “Effect of Fire-Resistant Carbonate Coating for Electric Cables,” Int. J. Chem. Comput. Eng., 2024.
[11] Z. K. et al, “The Effects Causing the Burning of Plastic Coatings of Fire-Resistant Cables and Its Consequences,” 2019.
[12] Y. Zhu, “The Double-Edged Sword of Flame Retardants in Building Materials,” Build. Environ., 2025.
[13] “IEC 60332-3-24: Tests on electric and optical fibre cables under fire conditions Part 3-24: Test for vertical flame spread of vertically-mounted bunched wires or cables Category C,” International Electrotechnical Commission (IEC), Geneva, Switzerland, International Standard, 2018.
[14] “High Resistance Connection.” 2026.
[15] “Mineral-Insulated Copper-Clad Cable.” 2025.
