Theoretical and experimental investigation of fires in large fuel tanks and creation of an innovative technology of their extinguishment

IF 0.3 Q4 MECHANICS

Vestnik Tomskogo Gosudarstvennogo Universiteta-Matematika i Mekhanika-Tomsk State University Journal of Mathematics and Mechanics Pub Date : 2022-01-01 DOI:10.17223/19988621/76/10

N. Kopylov, S. Kopylov, A. Karpov, Dmitry V. Fedotkin, E. Sushkina

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引用次数: 0

Abstract

Fundamental inefficiency of existing foam fire systems extinguishing tanks with oil and petroleum products having a volume of 5000 m3 or more is shown by methods of mathematical modeling. The required foam supply intensity and foam supply rate allowing effective fire suppression in large tanks with a volume of up to 20000 m3 are theoretically predicted. On this basis of theoretical conclusions, a new method of foam fire extinguishing in large fuel tanks has been developed. To obtain the required intensities and supply rates, fire extinguishing foam is formed in a special container with the use of solid-fuel gas generators. The theoretical predictions were confirmed in 21 full-scale successful experiments, in which fire suppresion system based on the new method was able to extinguish a fully developed gasoline fire in tanks with a volume of 5000 m3 and 20 000 m3 just for 30-90 seconds. The required amount of the foaming agent to extinguish a fire in a 20 000 m3 tank is only 450 liters, which is at least 100 times less than for traditional foam fire fighting Contribution of the authors: the authors contributed equally to this article. The authors declare no conflicts of interests.

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大型燃料箱火灾的理论与实验研究及灭火技术创新

通过数学建模的方法表明，现有泡沫消防系统的根本效率低下，灭火罐的油和石油产品的体积为5000立方米或更多。理论上预测了在容积达20000 m3的大型储罐中有效灭火所需的泡沫供应强度和泡沫供应速率。在此理论结论的基础上，提出了一种大型油箱泡沫灭火的新方法。为了获得所需的强度和供应速率，灭火泡沫是在使用固体燃料气体发生器的特殊容器中形成的。理论预测在21次全尺寸成功实验中得到证实，基于新方法的灭火系统能够在30-90秒内扑灭体积为5000 m3和20,000 m3的油箱中完全发展的汽油火灾。2万m3储罐灭火所需发泡剂用量仅为450升，比传统泡沫灭火至少少100倍以上。作者贡献:作者对本文贡献相同。作者声明没有利益冲突。

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来源期刊

Vestnik Tomskogo Gosudarstvennogo Universiteta-Matematika i Mekhanika-Tomsk State University Journal of Mathematics and Mechanics MECHANICS-

CiteScore

0.90

自引率

66.70%

发文量