Russian Federation
Russian Federation
Russian Federation
Russian Federation
Russian Federation
Statistical data about the number of fires, fire deaths and fire injures occurred in the Russian Federation in 2013–2024 in buildings and structures are analyzed. The data about the number of fires from various causes during the time interval under consideration are given. It has been established that most of the fires in buildings and structures since 2021 were caused by violations of the rules of the construction and operation of electrical equipment. The largest share of such fires is typical for public buildings, structures. Number of fires due to these causes at industrial facilities, warehouses exceeded 50 %, in buildings, structures in the residential sector it is approaching this mark. In 2019–2022, electrical wiring became source of 65–66 % of these fires. In 2023, the corresponding value increased to 78 %, in 2024 – to 81 %. In order to reduce the number of fires caused by electrical equipment and their consequences the measures for realization by various state and local government bodies, as well as enterprises, organizations, citizens are offered.
electrical equipment, buildings and structures, fire, fire deaths, fire injures, residential area, public buildings and structures, industrial facilities, cause of fire, improving of circumstances with fires
1. Klejmanov P.A, Mozhaev A.G. Narushenie pravil ustrojstva zazemleniya elektronagrevatel'nyh priborov – odna iz osnovnyh prichin pozharov // Nadzornaya deyatel'nost' i sudebnaya ekspertiza v sisteme bezopasnosti. 2018. № 4. S. 10–12.
2. Zavisimost' urovnya perenapryazhenij OPN raznyh klassov napryazheniya ot parametrov zazemlyayushchih ustrojstv. Eksperiment i modelirovanie / Yu.E. Adam'yan [i dr.] // Trudy Karel'skogo nauchnogo centra RAN. 2016. № 5 (39). S. 29–38.
3. Lykov Yu.F. Harakteristika sistem zazemleniya nizkovol'tnyh elektricheskih setej i ocenka opasnosti vozniknoveniya v nih pozhara // Promyshlennaya energetika. 2012. № 6. S. 53–55.
4. Smelkov G.I. K voprosu ob aktualizacii normativnoj bazy v oblasti obespecheniya pozharnoj bezopasnosti elektroustanovok // Pozharnaya bezopasnost': sovremennye vyzovy. Problemy i puti resheniya: sb. statej Mezhdunar. nauch.-prakt. konf. SPb, 2020. S. 52–53.
5. Smelkov G.I. K voprosu o modifikacii nacional'noj normativnoj bazy, reglamentiruyushchej trebovaniya pozharnoj bezopasnosti elektroprovodok // Servis bezopasnosti v Rossii: opyt, problemy, perspektivy. Monitoring, predotvrashchenie i likvidaciya chrezvychajnyh situacij prirodnogo i tekhnogennogo haraktera: sb. statej Mezhdunar. nauch.-prakt. konf. SPb, 2021. S. 209–213.
6. Obespechenie pozharnoj bezopasnosti elektroprovodki pri ee proektirovanii i montazhe v zdaniyah, sooruzhaemyh s primeneniem derevyannyh konstrukcij / V.A. Pekhotikov [i dr.] // Pozharnaya bezopasnost'. 2023. № 1 (110). S. 52–58. DOI:https://doi.org/10.37657/vniipo.pb.2023.110.1.005.
7. Smelkov G.I. Problems of assessing ignition capability of aluminum particles in electrical wiring when a short circuit occurs // EastConf: international science and technology conference. Vladivostok, 2019. P. 8725413. DOI:https://doi.org/10.1109/Eastonf.2019.8725413.
8. Li-Ion Battery Fire Hazards and Safety Strategies / Lingxi Kong [et al.]. URL: ttps://www.mdpi.com/1996-1073/11/9/2191/htm (data obrashcheniya: 02.06.2025).
9. Plotnikov V.G., Cheshko I.D., Kondratiev S.A. Fire hazard of lithium-ion batteries and lowvoltage power supplies based on them // Investigations of fires. 2014. Iss. 4. P. 53–58
10. Fire-extinguishing organic electrolytes for safe batteries / J. Wang [et al.] // Nat. Energy. 2018. № 3. P. 22–29.
11. Smelkov G.I. K voprosu o normirovanii pokazatelej pozharnoj opasnosti perekhodnyh kontaktnyh soprotivlenij v elektroustanovochnyh izdeliyah // Sovremennye pozharobezopasnye materialy i tekhnologii: sb. materialov Mezhdunar. nauch.-prakt. konf. Ivanovo. 2019. S. 682–685.
12. Babrauskas V. Research on Electrical Fires: The State of the Art // Fire Safety Science. 2008. № 9. P. 3–18. DOI: 10.3801/ IAFSS.FSS.9-3.
13. Babrauskas V. Research on Electrical Fires: The State of the Art // Fire Safety Science: Proceedings of the Ninth International Symposium. 2009. Vol. 9. P. 3–18. DOI:https://doi.org/10.3801/IAFSS.FSS.9-3.
14. Bokov G.V., Afonin V.V., Simankin V.I. Veroyatnostnaya ocenka pozharnoj bezopasnosti vypryamitel'nyh agregatov // Pozharnaya bezopasnost'. 2016. № 2. S. 108–112.
15. Berkowitz R.S. Conditions for Network-Element-Value Solvability // IRE Transactions on Circuit Theory. 1962. P. 24–29. URL: https://www.semanticscholar.org/author/R.-Berkowitz/39451146 (data obrashcheniya: 02.06.2025).
16. Vliyanie narushenij pravil ustrojstva i ekspluatacii elektrooborudovaniya, v tom chisle kabelej i provodov, na gibel' detej pri pozharah v zdaniyah, sooruzheniyah v Rossijskoj Federacii / V.I. Sibirko [i dr.] // Protivodejstvie fal'sificirovannym i kontrafaktnym sredstvam obespecheniya pozharnoj bezopasnosti i pozharotusheniya: sb. materialov nauch.-prakt. konf. Balashiha: FGBU VNIIPO MCHS Rossii, 2024. S. 74–88.
17. Aktual'nye voprosy pozharnoj bezopasnosti kabel'nyh izdelij / S.A. Lupanov [i dr.] // Elektroenergiya. Peredacha i raspredelenie. 2016. № 3. S. 88–93.
18. Prognoz obstanovki s pozharami v Rossijskoj Federacii na 2018 god, analiz obstanovki s pozharami, predlozheniya po uluchsheniyu obstanovki s pozharami v Rossijskoj Federacii. URL: https://cloud.mail.ru/public/z66e/i7FtgR1Bn (data obrashcheniya: 26.05.2025).
19. Vliyanie stepeni ognestojkosti zdanij, sooruzhenij na chislo pogibshih detej na pozharah, proizoshedshih za 9 mesyacev 2023–2024 gg. v Rossii / V.I. Sibirko [i dr.] // Organizacionnoe i nauchno-tekhnicheskoe obespechenie v oblasti pozharnoj bezopasnosti: sb. nauch. trudov, posvyashchennyj 100-letiyu so dnya rozhdeniya A.I. Yakovleva. Balashiha: FGBU VNIIPO MCHS Rossii, 2024. S. 199–211.
