Experimental Research on Upslope Fire and Jump Fire

Xiaodong Xie, Naian Liu, D. Viegas, J. Raposo
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引用次数: 3

Abstract

This paper presents an elementary analysis on the difference and similarity between upslope fire and jump fire, by a series of experiments performed in laboratory. The rate of spread (ROS), fire line angle (separation angle of the two fire lines), angular velocity of fire line, flame residence time and nondimensional radiant heat transfer for the two kinds of phenomena are investigated. For upslope fire, it is found that ROS remains almost steady for line ignition, while it increases with time for point ignition. For upslope fires with line ignition, the fire line angle decreases with time from the initial 180 o to a steady small value, while for point ignition, the initially generated fire line angle remains steady. The angular velocity of fire line does not depend on slope angle in an upslope fire with line ignition. For jump fire, the ROS first increases sharply and then decreases gradually, and it depends on slope angle more significantly than the initial fire line angle. The fire line angle increases with time, and the angular velocity of fire line varies with slope angle. For upslope fires with line ignition, the flame residence time increases with slope angle, while it remains almost constant for upslope tests with point ignition. For jump fire, under one specific initial fire line angle, the overall mean residence time increases with increasing slope angle. Nondimensional heat radiation for fuel preheating is calculated which effectively explains the ROS development in upslope fire with line ignition and jump fire.
上向火灾与跃向火灾的实验研究
本文通过一系列的室内实验,初步分析了上坡火灾与跳跃火灾的异同。研究了两种现象的蔓延速率(ROS)、火线角(两条火线的分离角)、火线角速度、火焰停留时间和无因次辐射换热。对于上坡火灾,线点火时ROS基本保持稳定,点点火时ROS随时间增加。对于直线点火的上坡火灾,火线角随时间减小,从初始的180°减小到一个稳定的小值,而对于点点火,初始产生的火线角保持稳定。在直线点火的上坡火灾中,火线的角速度不依赖于火线的倾斜角。跃变火灾时,ROS先急剧增大后逐渐减小,对坡角的依赖大于对初始火线角的依赖。火线角随时间增大,火线角速度随坡角变化。对于直线点火的上坡试验,火焰停留时间随坡角的增加而增加,而对于点点火的上坡试验,火焰停留时间基本保持不变。对于跃变火灾,在一定初始火线角度下,随着坡角的增加,总体平均停留时间增加。对燃油预热过程的无因次热辐射进行了计算,有效地解释了直线点火和跳火上坡火灾中ROS的发展。
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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