[口头报告]Study on the Impact of Flame Throttling Effect on the Longitudinal Ventilation Performance in Tunnels
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[口头报告]Study on the Impact of Flame Throttling Effect on the Longitudinal Ventilation Performance in Tunnels

Study on the Impact of Flame Throttling Effect on the Longitudinal Ventilation Performance in Tunnels
编号:211 稿件编号:231 访问权限:仅限参会人 更新:2024-05-27 13:12:21 浏览:571次 口头报告

报告开始:2024年05月31日 14:30 (Asia/Shanghai)

报告时间:10min

所在会议:[S2] Safety Engineering and Occupational Health » [S2-6] Afternoon of May 31st

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摘要
The efficacy of natural smoke extraction in longitudinal ventilation through vertical shafts is compromised due to flame throttling effect, hindering smoke dispersal. This study investigates the influence of upstream throttling effects on longitudinal ventilation using theoretical analysis and numerical modeling of natural smoke exhaust system in tunnels. Parameters such as longitudinal ventilation velocity, vertical shaft positioning, and heat release rate were varied to scrutinize their impact. Experimental validation was conducted using scaled tunnel models. The findings reveal a direct proportionality between the equivalent length of flame throttling effect and the dimensionless smoke back-layering length, with the correlation coefficient dependent on factors such as tunnel wall friction coefficient, dimensions, and smoke layer height. Moreover, the throttling effect exhibits correlations with heat release rate and longitudinal ventilation. Notably, the impact of upstream fire throttling escalates with increasing dimensionless heat release rate (Q*≤0.15 ), while beyond Q*>0.15 , the effect remains consistent regardless of fire size. Additionally, flame throttling effect significantly alters the smoke back-layering length in tunnel fires, necessitating its consideration for computational accuracy in modeling. This study provides computational models and methodologies to incorporate the upstream throttling effect for improved accuracy in predicting smoke back-layering length.
 
关键字
tunnel fire, throttling effect, longitudinal ventilation, smoke exhaust system, smoke back-layering length
报告人
Xuming Li
China University of Mining and Technology

稿件作者
晓锦 张 中国矿业大学安全学院
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