Experimental Study on the Effect of Sub-Flash Point Fuel Temperature on the Spread Characteristics of Spill Fire

IF 3 3区 农林科学 Q2 ECOLOGY
C. Ding, Shuangyang Ma, Zijian Yan, Lingfeng He, Yuyao Li, Tingyong Fang, Yan Jiao
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引用次数: 0

Abstract

The spill fires caused by liquid fuel leaks greatly threaten the safety of fuel transportation and storage. In this work, the effect of fuel temperature on the spread characteristics of flowing flames was investigated through n-butanol spilling fire experiments. The spill fire spread can be divided into three stages at different temperatures and leakage rates (I) full spread, (II) gradually extinguished spread, and (III) unable to spread. The oscillation of the flame is related to the fuel thickness and the discharge rate. As the discharge rate or temperature increases, the spread mode changes from pulsation to uniform. With an increase in temperature, the surface flow of the flame is reduced, leading to a decrease in both the preheating time and pulsation amplitude. However, the rate of liquid surface detachment from the flame increases with increasing temperature. The view factor of flame spread can be calculated by the solid flame model, and the flame influences the heat radiation spread state with stable phases or peaks. The research findings presented in this paper hold significant implications for the development of fire safety regulations pertaining to fuel leakage fires.
亚闪点燃料温度对溢出火灾蔓延特性影响的实验研究
液体燃料泄漏引起的泄漏火灾严重威胁着燃料运输和储存的安全。通过正丁醇溢出火灾实验,研究了燃料温度对流动火焰蔓延特性的影响。在不同温度和泄漏速率下,溢火蔓延可分为完全蔓延阶段、逐渐扑灭蔓延阶段和无法蔓延阶段。火焰的振荡与燃料的厚度和放电速率有关。随着放电速率或温度的升高,扩散模式由脉动型向均匀型转变。随着温度的升高,火焰的表面流量减小,导致预热时间和脉动幅度减小。然而,液体表面脱离火焰的速度随着温度的升高而增加。采用固体火焰模型计算火焰传播的可视因子,火焰以稳定的相位或峰值影响热辐射传播状态。本文的研究结果对燃油泄漏火灾的消防安全法规的制定具有重要意义。
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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来源期刊
Fire-Switzerland
Fire-Switzerland Multiple-
CiteScore
3.10
自引率
15.60%
发文量
182
审稿时长
11 weeks
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