Models and algorithms for the management of fire and rescue units in extinguishing fires at metallurgical enterprises when unloading raw materials from rolling stock


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The approbation of the application of models and algorithms for supporting the control of forces and means of a fire and rescue garrison based on optimal decision-making models (stochastic or probabilistic) within the framework of the existing conditions for achieving the main task of fire departments, based on the theory of finite Markov chains, has been carried out. Study of the consequences of fires at metallurgical enterprises, namely, fires that occur on conveyor belts, including when unloading raw materials from a transport rolling stock, as well as the process of optimizing the management of fire departments when extinguishing these fires. Researchers have considered a model for managing fire and rescue units using a method that includes a process of discrete sequential conditions for making managerial decisions (Markov chains). To achieve the set goals, a practical experiment was carried out on burning samples of conveyor belts in a muffle furnace and a calorimetric installation, the results obtained were assessed, and a model for managing fire and rescue units was described. The subject of the research is support for the management of fire and rescue units in extinguishing a fire at metallurgical enterprises when unloading raw materials from rolling stock onto conveyor belts of the enterprise. Results. The destructiveness and scale of the possible consequences of a fire at metalworking enterprises have been experimentally confirmed, and the need to apply preventive measures and extinguish fires at facilities of this type has been determined. The results obtained can be used to control fire and rescue units when extinguishing fires at metallurgical enterprises when unloading raw materials from rolling trains onto conveyor belts of the enterprise. This work is intended for persons who make managerial decisions and who manage forces and means when extinguishing fires at metallurgical enterprises.

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作者简介

Alexei Denisov

Academy of the State Fire Service Ministry of Civil Defence, Emergency Situations of the Russian Federation Disaster Management (EMERCOM Academy)

Email: dan_aleks@mail.ru
Dr. Sci. (Eng.), Professor; professor at the Department of Fire Tactics and Service (as Part of the Educational and Scientific Fire-Fighting Complex) Moscow, Russian Federation

Mikhail Danilov

Academy of the State Fire Service Ministry of Civil Defence, Emergency Situations of the Russian Federation Disaster Management (EMERCOM Academy)

Email: mdagps@yandex.ru
Cand. Sci. (Eng.); associate professor at the Department of Fire Tactics and Service (as Part of the Educational and Scientific Fire-Fighting Complex) Moscow, Russian Federation

Irina Tsokurova

Academy of the State Fire Service Ministry of Civil Defence, Emergency Situations of the Russian Federation Disaster Management (EMERCOM Academy)

Email: venskovskaya@bk.ru
postgraduate at the Department of Fire Tactics and Service (as part of the educational and scientific fire-fighting complex). Moscow, Russian Federation

Sergei Anikin

Academy of the State Fire Service Ministry of Civil Defence, Emergency Situations of the Russian Federation Disaster Management (EMERCOM Academy)

Email: neytrinos@mail.ru
postgraduate at the Department of Fire Tactics and Service (as Part of the Educational and Scientific Fire-Fighting Complex) Moscow, Russian Federation

参考

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