[口头报告]Experimental study on the fire control and smoke transportation using sealing strategy in tunnel
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[口头报告]Experimental study on the fire control and smoke transportation using sealing strategy in tunnel

Experimental study on the fire control and smoke transportation using sealing strategy in tunnel
编号:215 稿件编号:156 访问权限:仅限参会人 更新:2024-05-15 17:44:30 浏览:628次 口头报告

报告开始:2024年05月31日 16:30 (Asia/Shanghai)

报告时间:10min

所在会议:[S2] Safety Engineering and Occupational Health » [S2-3B] Afternoon of May 31st B

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摘要
Sealing tunnel portals is a favorable approach to controlling tunnel fires. This paper experimentally studied the influence of portals-sealing on fire behavior in a small-scale tunnel. A series of characteristic parameters, including fuel burning rate, O2 and CO2 volume fraction, and ceiling smoke temperature in the tunnel were measured. Besides, the flame self-extinguishment time, smoke transportation characteristics and gas temperature field at different fire source locations and sealing conditions were systematically investigated. Results indicated that the critical equivalence ratio for methanol fuel converted to ventilation-controlled tunnel fires is within 0.783-0.923. The combustion state is influenced by fire location. Fires occurring near the tunnel entrance are more prone to self-extinguishment than those away from the tunnel entrance. The critical volume fraction of O2 for flame self-extinguishment ranges from 13.5%-15.3% and decreases with increasing smoke temperature. Moreover, sealing tunnel portals significantly impacts peak smoke temperature values, but hardly changes the longitudinal distribution pattern of temperature. The longitudinal distribution model of gas temperature under the action of the strong plume in a confined space is developed. This study provides guidance for fire risk assessment during the tunnel sealing process and contributes to the scientific development of sealing strategies.
关键字
tunnel fire; sealing effect; equivalence ratio; flame self-extinguishment; smoke transportation characteristics
报告人
Qing Li
China University of Mining and Technology

稿件作者
Qing Li China University of Mining and Technology
Jianhong Kang China University of Mining and Technology
Jie Mei China University of Mining and Technology
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