Article
Article name	Spontaneous combustion of coals in permafrost conditions
Authors	Chemezov E.. , Fedorov K.. postgraduate, kfk6@mail.ru
Bibliographic description
Category	Earth science
DOI	УДК 622.822
DOI	DOI: 10.21209/2227-9245-2022-28-2-29-35
Article type
Annotation	Taking into account the prospects for the growth of coal production in the conditions of the North-East, the countries require further development of research to more reliably justify measures to prevent endogenous fires in the permafrost zone, which cause serious economic damage and worsen the environmental situation due to the release of large amounts of toxic gases. The authors have studied the chemical activity and tendency to spontaneous combustion of coals in the permafrost zone. The effect of ambient temperature on the dynamics of oxidative processes in coal accumulations is shown. These studies have identified the main factor in preventing the endogenous fire hazard of coal deposits in the North-East of the country, which consists in maintaining negative or low air temperatures to prevent the intensification of oxidative processes in the coals of the permafrost zone. In laboratory conditions, the influence of physical and chemical factors on the process of spontaneous combustion of frozen coals was studied. Field experiments were carried out on many coal mines in the permafrost area. A system analysis and generalization of domestic and foreign methods of prevention of spontaneous combustion of coals has been carried out. Antipyrogenic compositions have been proposed to reduce the oxidizing ability of coals
Key words	Key words: coal, mine, spontaneous combustion, chemical activity, prevention, permafrost, endogenous fire hazard, thermal regime, temperature, deposit
Article information	Chemezov E., Fedorov K. Spontaneous combustion of coals in permafrost conditions // Transbaikal State University Journal, 2022, vol. 28, no. 2, pp. 29-35. DOI: 10.21209/2227-9245-2022-28-2-29-35
References	1. Igishev V. G. Borba s samovozgoraniyem uglya v shahtah (Struggle against spontaneous combustion of coal in mines). Moscow: Nedra, 1987, 176 p. 2. Lindenau N. I., Mayevskaya V. M., Krylov V. F. Proishozhdeniye, profilaktika i tusheniye endogennyh pozharov v ugolnyh shahtah (Origin, prevention and suppression of endogenous fires in coal mines). Moscow: Nedra, 1977, 318 p. 3. Kiselev Ya. S., Khoroshilov O. A. Pozharovzryvobezopasnost (Fire and explosion safety), 2004, vol. 13, no. 6, рр. 45–52. 4. Kiselev Ya. S., Khoroshilov O. A., Demekhin F. V. Fizicheskiye modeli goreniya v sisteme pozharnoy bezopasnosti (Physical models of combustion in the fire safety system). St. Petersburg: Publishing House of the Polytechnic University, 2009, 339 p. 5. Kolesnichenko I. Ye., Artemyev V. B., Kolesnichenko Ye. A., Cherechukin V. G., Lyubomishchenko Ye. I. Ugol (Coal), 2016, no. 6, рр. 30–35. DOI: 10.18796/0041-5790-2016-6-30-35. 6. Lugovtseva N. Yu. Portola V. A. Sovremennye problemy nauki i obrazovaniya (Modern problems of science and education), 2013, no. 6, рp. 108–110. 7. Portola V. A. Fiziko-tehnicheskiye problemy razrabotki poleznyh iskopayemyh (Physical and technical problems of mineral development), 1996, no. 3, рр. 61–68. 8. Portola V. A., Protasov S. I., Podobrazhin S. N. Bezopasnost truda v promyshlennosti (Labor safety in industry), 2004, no. 11, рр. 41–43. 9. Fedorova S. Ye. Endogennaya pozharoopasnost ugley v kriolitozone (Endogenous fire hazard of coals in permafrost). Yakutsk: YaFGU. Publishing House of SO RAN, 2004, 104 p. 10. Epshteyn S. A., Mongush M. A., Nesterova V. G. Gorny informatsionno-analiticheskiy byulleten (Mining information and analytical bulletin), 2008, no. 12, рр. 211–216. 11. Arisoy A., Beamish B. Fuel (Fuel), 2015, vol. 159, рр. 412–417. 12. Zhang L., Qin B. Fire and Materials (Fire and Materials), 2016, vol. 40, Iss. 2, рр. 246–260.
Full article	Spontaneous combustion of coals in permafrost conditions