中文摘要：

介绍了地铁区间隧道火灾常见的几种通风排烟模式,对其中一种最复杂的模式进行了数值分析.模拟分析得出,对于地铁实际工程中的单线盾构圆形隧道,在10 MW火灾强度下,着火区间隧道内2.6～2.9 m/s左右的纵向风速可以有效阻止烟气发生逆流;在着火区间隧道2.9 m/s的纵向风速下,未着火区间隧道两端对送送风速度为1～1.5 m/s时,联络通道内有风速为6 m/s左右的气流流向着火区间隧道,可有效抑制烟气通过联络通道向未着火区间隧道蔓延,保证人员的安全疏散.

英文摘要：

Presents several ordinary ventilation and smoke extraction modes, and simulates the most complex one of them, The results show that for the single-track shield tunnel in actual projects, the longitudinal ventilation velocity of 2.642,9 m/s can effectively prevent smoke from counter flow at a heat release rate of 10 MW; when the tunnet sector oll fire with a longitudinal velocity of 2.9 m/s and the unfired tunnel sector with the velocity of 1-1.5 m/s from both ends.there is an air tlow with the velocity of 6 m/s to the tunnel on fire in the connected runnel, so the smoke diffusion to the unfired tunnet is effectively prevented, and the security of evacuation is ensured.