%0 Journal Article
%T 主线坡度对分岔隧道火灾烟气蔓延的影响
Effect of Main Line Slope on Smoke Spread in Bifurcated Tunnel Fires
%A 刘茜
%A 汪彬
%J Mine Engineering
%P 280-286
%@ 2329-731X
%D 2024
%I Hans Publishing
%R 10.12677/me.2024.122032
%X 为探明主线坡度对分岔隧道内的烟气蔓延规律的影响,采用FDS模拟主线正负坡度变化分岔隧道内的火灾烟气蔓延行为,考虑主线坡度为?7?、?5?、?3?、0?、3?、5?、7?,火源功率为5 MW、10 MW和20 MW,揭示主线坡度影响分岔隧道内烟气蔓延的作用机制。研究得出,分岔隧道主线坡度为正坡度时,隧道内形成正烟囱效应,随着坡度增加,上游和匝道烟气回流长度变短,在坡度为7?时上游隧道内无烟气流出,坡度越大越有利于隧道内排烟;分岔隧道主线坡度为负坡度时,隧道内形成负烟囱效应,隧道下游烟气回流长度变长,坡度越大越不利于隧道排烟。
In order to explore the influence of the slope of the main line on the smoke spreading pattern in bifurcated tunnels, FDS was used to simulate the fire smoke spreading behavior in bifurcated tunnels with positive and negative slope changes of the main line, considering that the main line slopes were ?7? and ?5?, ?3?, 0?, 3?, 5?, 7?, and the fire source power is 5 MW, 10 MW and 20 MW, revealing the mechanism by which the slope of the main line affects the spread of smoke in bifurcated tunnels. The study shows that when the slope of the main line of the bifurcated tunnel is a positive slope, a positive chimney effect is formed in the tunnel. As the slope increases, the length of the smoke backflow in the upstream and ramps becomes shorter. When the slope is 7?, there is no smoke flowing out of the upstream tunnel. The greater the slope, the more conducive to smoke exhaust in the tunnel; When the slope of the main line of the bifurcated tunnel is a negative slope, a negative chimney effect is formed in the tunnel, and the smoke return length downstream of the tunnel becomes longer. The greater the slope, the less conducive to tunnel smoke exhaust.
%K 逆流长度,主线坡度,分岔隧道,温度分布
Counterflow Length
%K Main Line Slope
%K Bifurcated Tunnel
%K Temperature
%U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=85168