Risk Assessment Using Overpressure and Impulse for Abnormal Explosion of Composite Solid Propellants

Fire Science and Engineering Pub Date : 2024-02-28 DOI:10.7731/kifse.676b9b7c

G. Hwang, Si-Hyeon Jo, Dong-Hee Kim

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Abstract

In this study, the risks were investigated by probabilistic analysis of the effects on the person and structure located around the composite solid propellant when it explodes abnormally. Two types of solid propellants of different sizes and three TNT equivalents of composite propellants were applied to empirical correlation to derive incident pressure and impulse. These were used in probit analysis, and the effects on the person and structure were quantitatively analyzed to determine the risk of solid propellant explosion. The larger the propellant and the more the TNT equivalent, the higher the incident pressure and impulse. Moreover, the amount of propellant had a more significant effect on the impulse than the incident pressure. The effects of the incident pressure and impulse on human were observed to be greater in the order of probability of ruptured eardrums, death from head impact, death from whole-body displacement impact, and death from lung damage. Furthermore, the effects on the structure were observed to be greater in the order of probability of breakage of window, minor damage, major damage, and collapse of the building.

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利用超压和脉冲对复合固体推进剂异常爆炸进行风险评估

在本研究中，通过对复合固体推进剂异常爆炸时对周围人员和结构的影响进行概率分析，对风险进行了研究。对两种不同尺寸的固体推进剂和三种 TNT 等效的复合推进剂进行了经验相关性分析，得出了入射压力和冲量。将其用于 probit 分析，定量分析其对人体和结构的影响，以确定固体推进剂爆炸的风险。推进剂越大，TNT 当量越多，事故压力和冲量就越大。此外，推进剂数量对脉冲的影响比事故压力更大。事故压力和脉冲对人体的影响依次为耳膜破裂、头部撞击致死、全身位移撞击致死和肺部损伤致死。此外，还观察到对建筑物的影响依次为窗户破裂、轻微损坏、严重损坏和建筑物倒塌。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Fire Science and Engineering

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