Model for assessing the efficiency of fire extinguishing reservoirs of oil products

Authors

DOI:

https://doi.org/10.33408/2519-237X.2024.8-3.264

Keywords:

efficiency, hierarchy analysis method, resource intensity, reliability, safety, responsiveness

Abstract

Purpose. Development of a model for assessing the efficiency of fire extinguishing of oil product storage tanks; substantiation of promising fire extinguishing methods for vertical steel tanks (hereinafter - VST).

Methods. Justification of promising methods of fire extinguishing in oil product storage tank farms was carried out by the method of hierarchy analysis.

Findings. The canonical efficiency indicator including resource intensity, reliability, safety and efficiency with their subsequent decomposition in hierarchical form is presented. The available subjective judgments of experts allow not only to identify one priority direction of improving the methods of fire extinguishing in VST, but also to determine the weight coefficients of efficiency indicators. Improvement of methods of creating an insulating layer over the combustion surface, as well as the development of new and promising techniques to stop combustion for different scenarios of emergency development in oil product storage tanks, is a priority direction to improve fire safety in case of fire in VST.

Application field of research. The results of the research allow not only identifying the priority direction of fire safety improvement in case of fire on VST, in particular, improving the methods of creating an insulating layer over the combustion surface, but also to model the efficiency index of automatic fire extinguishing installations of the tank farm.

Author Biographies

Andrey S. Perevalov, Ural Institute of State Fire Service of EMERCOM of Russia; 620062, Russia, Ekaterinburg, Mira str., 22

Chair of Special Training, Head of the Chair; PhD in Technical Sciences, Associate Professor

Konstantin V. Pastukhov, Public Joint Stock Company «Uralmashzavod»; Russia, Sverdlovsk region, Ekaterinburg, 1st Pyatiletka sq.

Division of Labor Protection and Industrial Safety, Deputy Head of the Division

References

Perevalov A.S., Pastukhov K.V., Mironchev A.V. Puti i sposoby tusheniya pozharov v rezervuarakh khraneniya nefteproduktov [Ways and methods of fire extinguishing in oil producer reservoirs]. Technosphere Safety, 2019. No. 2 (23). Pp. 22–32. (rus). EDN: https://elibrary.ru/WVABLW.

Perevalov A.S., M.A. Rassokhin, Yurkin A.V. Perspektivy primeneniya sistemy zhalyuzi pri avtomaticheskom tushenii rezervuarnogo parka [Prospects for the use the shutter system for automatic extinguishing of the tank farm]. Fire and Technospheric Safety: Problems and Ways of Improvement, 2022. No. 2 (12). Pp. 183–186. (rus). EDN: https://elibrary.ru/VHNOEX.

Jenft A., Boulet P., Collin A., Trevisan N., Mauger P.-N., Pianet G. Modeling of fire suppression by fuel cooling. Fire Safety Journal, 2017. Vol. 91. Pp. 680-687. DOI: https://doi.org/10.1016/j.firesaf.2017.03.067.

Peller A.T. A new approach to extinguishing fires on combustible-liquid storage tanks. International Fire Fighter, 2018. Iss. 74. P. 22–25. Url: https://ifpmag.com/a-new-approach-to-extinguishing-fires-on-combustible-liquid-storage-tanks/.

Zhao H., Liu J.-S. The feasibility study of extinguishing oil tank fire by using compressed air foam system. Procedia Engineering, 2016. Vol. 135. Pp. 61–66. DOI: https://doi.org/10.1016/j.proeng.2016.01.080.

Perevalov A.S., Pastukhov K.V., Devyatkin N.O., Rassokhin M.A., Sashchenko V.N., Yurkin A.V. Polotno dlya tusheniya pozharov v rezervuarakh [Blanket for extinguishing fires in tanks]: patent fot utility model RU 222179U1. Published December 14, 2023. (rus)

Perevalov A.S. Perspektivnye priemy likvidatsii pozharov s nefteproduktami v rezervuarakh vertikal'nykh stal'nykh [Perspective techniques for eliminating fires in reservoirs with oil products]. Proc. of X Anniversary Forum «Shkola molodyh uchyonyh i specialistov MCHS Rossii» [«School of young scientists and specialists of EMERCOM of Russia»], Saint-Petersburg, October 15, 2020. Saint-Petersburg University of the State Fire Service of EMERCOM of Russia, 2020. (rus). EDN: https://elibrary.ru/CNFIXT.

Mykhalichko B., Lavrenyuk H., Mykhalichko O. New water-based fire extinguishant: Elaboration, bench-scale tests, and flame extinguishment efficiency determination by cupric chloride aqueous solutions. Fire Safety Journal, 2019. Vol. 105. Pp. 188–195. DOI: https://doi.org/10.1016/j.firesaf.2019.03.005.

Avduevskiy V.S. et al. Nadezhnost' i effektivnost' v tekhnike [Reliability and efficiency in technology]: reference book in 10 volumes. Moscow: Mashinostroenie, 1986–1990. Vol. 3: Effektivnost' tekhnicheskikh sistem [Efficiency of technical systems]: ed. by Utkin V.F., Kryuchkov Yu.V. 1988. 328 p. (rus)

Petukhov G.B. Osnovy teorii effektivnosti tselenapravlennykh protsessov. Ch. 1: Metodologiya, metody, modeli [Fundamentals of the theory of efficiency of targeted processes. Part 1: Methodology, methods, models]: tutorial. Moscow: Ministry of Defense of USSR, 1989. 660 p. (rus)

Perevalov A.S., Sugak V.P., Smetanin Yu.V. Obosnovanie pokazateley kachestva tselenapravlennykh protsessov povysheniya bezopasnosti na akvatorii vnutrennikh vodoemov [Justification of quality indicators of targeted safety improvement processes in the water area of inland water bodies]. Problems of risk management in the technosphere, 2012. No. 4 (24). Pp. 42–46. EDN: https://elibrary.ru/PYQWBV.

Barlow R.E, Proschan F. Mathematical theory of reliability: translation from English. Moscow: Sovetskoe radio, 1969. 488 p. (rus)

Zubarev Yu.A., A.I. Shamardin. Entsiklopedicheskiy slovar' terminov po menedzhmentu, marketingu, ekonomike, predprinimatel'stvu [Encyclopedic dictionary of terms on management, marketing, economics, entrepreneurship]. Tutorial in 2 volumes. Volgograd: Bibkom, 2012. Vol. 2. (rus)

Saati T. Prinyatie resheniy. Metod analiza ierarkhiy [How to make a decision. The analytic hierarchy process]: translation from English. Moscow: Radio i svyaz', 1993. 314 p. (rus)

Sugak V.P., Morgunov V.M., Kalinina E.S. Mnogokriterial'nyy vybor metodom analiza ierarkhiy [Multicriteria choice by hierarchy analysis]: monograph. Saint-Petersburg University of the State Fire Service of EMERCOM of Russia, 2010. 72 p. (rus)

Alymov V. T., Krapchatov V. P., Tarasova N. P. Analiz tekhnogennogo riska [Analysis of technogenic risk]: tutorial. Moscow: Kruglyy god, 2000. 156 p. (rus)

Sugak E.V., Okladnikova E.N., Ermolaeva L.V. Informatsionnye tekhnologii upravleniya sotsial'no-ekologicheskim riskom [Information control technologies of social-ecologic risk]. Vestnik Sibirskogo gosudarstvennogo aerokosmicheskogo universiteta imeni akademika M.F. Reshetneva, 2008. No. 4 (21). Pp. 87–91. (rus). EDN: https://elibrary.ru/JWJUEP.

Grazhdankin A.I., Lisanov M.V., Pecherkin A.S. Ispol'zovanie veroyatnostnykh otsenok pri analize bezopasnosti opasnykh proizvodstvennykh ob"ektov [Use of probabilistic assessments in analyzing the safety of hazardous production facilities]. Bezopasnost' truda v promyshlennosti, 2001. No. 5. Pp. 33–36. (rus). EDN: https://elibrary.ru/JVVUEJ.

Sugak E.V. Sovremennye metody otsenki ekologicheskikh riskov [Modern methods of estimation of environmental risk]. European Social Science Journal, 2014. No. 5-2 (44). Pp. 427–433. (rus). EDN: https://elibrary.ru/SPDDTV.

Journal of Civil Protection, Vol. 8 No. 3

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Published

2024-08-20

How to Cite

Perevalov А. С. and Pastukhov К. В. (2024) “Model for assessing the efficiency of fire extinguishing reservoirs of oil products”, Journal of Civil Protection, 8(3), pp. 264–275. doi: 10.33408/2519-237X.2024.8-3.264.

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Copyright (c) 2024 Perevalov A.S., Pastukhov K.V.

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Issue

Vol. 8 No. 3 (2024): Journal of Civil Protection

Section

Fire and explosion protection. Fire resistance of building materials

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