|本期目录/Table of Contents|

[1]马砺,刘顺,李超华,等.巷道火灾密闭过程中烟气温度及流动特性研究*[J].中国安全生产科学技术,2021,17(2):46-52.[doi:10.11731/j.issn.1673-193x.2021.02.007]
 MA Li,LIU Shun,LI Chaohua,et al.Study on temperature and flow characteristics of smoke during sealing process of roadway fire[J].JOURNAL OF SAFETY SCIENCE AND TECHNOLOGY,2021,17(2):46-52.[doi:10.11731/j.issn.1673-193x.2021.02.007]
点击复制

巷道火灾密闭过程中烟气温度及流动特性研究*
分享到:

《中国安全生产科学技术》[ISSN:1673-193X/CN:11-5335/TB]

卷:
17
期数:
2021年2期
页码:
46-52
栏目:
职业安全卫生管理与技术
出版日期:
2021-02-28

文章信息/Info

Title:
Study on temperature and flow characteristics of smoke during sealing process of roadway fire
文章编号:
1673-193X(2021)-02-0046-07
作者:
马砺刘顺李超华张鹏宇刘尚明
(1.西安科技大学 安全科学与工程学院,陕西 西安 710054;
2.西安科技大学 陕西省煤火灾害防控重点实验室,陕西 西安 710054)
Author(s):
MA Li LIU Shun LI Chaohua ZHANG Pengyu LIU Shangming
(1.College of Safety Science and Engineering,Xi’an University of Science and Technology,Xi’an Shaanxi 710054,China;
2.Shaanxi Provincial Key Laboratory of Coal Fire Hazard Prevention and Control,Xi’an University of Science and Technology,Xi’an Shaanxi 710054,China)
关键词:
巷道火灾密闭纵向通风烟气逆流FDS
Keywords:
roadway fire sealing longitudinal ventilation smoke backflow FDS
分类号:
X936
DOI:
10.11731/j.issn.1673-193x.2021.02.007
文献标志码:
A
摘要:
为研究巷道火灾密闭过程中烟气的温度变化规律及流动特性,通过缩尺寸实验台和FDS数值模拟软件对12.65,18.97,25.30 kW不同火源功率及25%,50%,75%,100%不同密闭比例条件下的巷道火灾进行模拟实验。结果表明:密闭比例的增加会使火焰倾角减小,当巷道完全密闭后,火焰形状近似垂直,顶板热辐射和温度增加;巷道在50%和75%密闭比例之间存在1个突变值,当超过此突变值后,顶板温度会急剧升高,同时燃烧会更快进入衰减阶段,且火源功率越大衰减越早;密闭比例的增加会导致烟气逆流长度上升,增加纵向通风速度可有效地抑制烟气逆流现象,当实际巷道火源功率为4 MW时,纵向通风风速设定为3.8 m/s能使烟气逆流得到较好的控制。
Abstract:
In order to study the temperature change laws and flow characteristics of smoke during the sealing process of roadway fire,the simulation experiments of roadway fire under the conditions of 12.65 kW,18.97 kW,25.30 kW fire source power and 25%,50%,75%,100% sealing ratios were carried out through the scalereduced test bench and FDS numerical simulation software.The results showed that the increase of sealing ratio would reduce the flame inclination angle,and when the tunnel was completely sealed,the flame shape was approximately vertical,the heat radiation and temperature of the roof would increase.There existed a abrupt value between the sealing ratio of 50% and 75% in the roadway,and when exceeding this abrupt value,the temperature of roof would rise sharply,the combustion would enter the decay stage faster,and the greater the fire source power,the earlier the decay.The increase of sealing ratio would increase the length of smoke backflow,and increasing the longitudinal ventilation speed could suppress the phenomenon of smoke backflow effectively,when the actual roadway fire source power was 4 MW,setting the longitudinal ventilation speed to 3.8 m/s could make the smoke backflow get better control.

参考文献/References:

[1]梁运涛,侯贤军,罗海珠,等.我国煤矿火灾防治现状及发展对策[J].煤炭科学技术,2016,44(6):1-6,13. LIANG Yuntao,HOU Xianjun,LUO Haizhu,et al.Development countermeasures and current situation of coal mine fire prevention & extinguishing in China[J].Coal Science and Technology,2016,44(6):1-6,13.
[2]NEWMAN J S.Experimental evaluation of fire-induced stratification[J].Combustion and Flame,1984,57:33-39.
[3]周延,王德明,周福宝.水平巷道火灾中烟流逆流层长度的实验研究[J].中国矿业大学学报,2001(5):24-26. ZHOU Yan,WANG Deming,ZHOU Fubao.Experimental study on length of smoke back-flow layer of fire in horizontal tunnel [J].Journal of China University of Mining & Technology,2001(5):24-26.
[4]周福宝,王德明.矿井火灾烟流滚退距离的数值模拟[J].中国矿业大学学报,2004(5):9-13. ZHOU Fubao,WANG Deming.Numerical analysis of backflow distance of smoke in mine fire [J].Journal of China University of Mining & Technology,2004(5):9-13.
[5]文虎,张铎,郑学召.煤矿平巷火灾数值模拟及其特征参数研究[J].煤炭科学技术,2017,45(4):62-67. WEN Hu,ZHANG Duo,ZHENG Xuezhao.Study on numerical simulation and feature parameters of fire disasters occurred in mine roadway [J].Coal Science and Technology,2017,45(4):62-67.
[6]刘剑,王银辉,李静,等.倾斜巷道内火灾逆流层变化规律数值模拟[J].安全与环境学报,2015,15(4):94-97. LIU Jian,WANG Yinhui,LI Jing,et al.Numerical simulation for the countercurrent fire change regularity in the inclined tunnel[J].Journal of Safety and Environment,2015,15(4):94-97.
[7]李小菊,朱杰,代君雨,等.不同截面形状矿井巷道火灾数值模拟研究[J].矿业安全与环保,2015,42(4):4-8,12. LI Xiaoju,ZHU Jie,DAI Junyu,et al.Numerical simulation study on fire in mine roadway with differentcross-sectional shape[J].Mining Safety & Environmental Protection,2015,42(4):4-8,12.
[8]周煜琴,林龙沅.运输设备对巷道火灾烟气流动的影响[J].中国安全生产科学技术,2012,8(6):16-21. ZHOU Yuqin,LIN Longyuan.Study on the impact of conveying equipment on fire smoke flow in mine roadway [J].Journal of Safety Science and Technology,2012,8(6):16-21.
[9]郭军,刘荫,金永飞,等.矿井胶带火灾巷道环境多参数时空演化规律[J].西安科技大学学报,2019,39(1):21-27. GUO Jun,LIU Yin,JIN Yongfei,et al.Spatiotemporal evolution law of multiple parameters of roadway environment for rubber-belt fire in mine [J].Journal of Xi’an University of Science and Technology,2019,39(1):21-27.
[10]张李荣.平直巷道胶带火灾温度场及烟气流动规律实验研究[D].西安:西安科技大学,2016.
[11]祁云,齐庆杰,汪伟,等.胶带运输巷水幕抑制火灾烟气效率影响因素实验研究[J].中国安全生产科学技术,2019,15(5):123-129. QI Yun,QI Qingjie,WANG Wei,et al.Experimental study on influencing factors of fire smoke suppression efficiency by water curtain in belt transportation roadway [J].Journal of Safety Science and Technology,2019,15(5):123-129.
[12]马洪亮,周心权.矿井火灾燃烧特性曲线的研究与应用[J].煤炭学报,2008(7):780-783. MA Hongliang,ZHOU Xinquan.Research and application of the characteristic curves in mine fire[J].Journal of China Coal Society,2008(7):780-783.
[13]YAO Y Z,CHENG X D,SHI L,et al.Experimental study on the effects of initial sealing time on fire behaviors in channel fires[J].International Journal of Thermal Sciences,2018,125:273-282.
[14]蒋亚强,李乐,廖曙江,等.城市隧道火灾烟气最高温升特性的全尺寸试验研究[J].工程热物理学报,2015,36(10):2287-2292. JIANG Yaqiang,LI Le,LIAO Shujiang,et al.Full scale tests on the maximum smoke temperature rise in an urban tunnel [J].Journal of Engineering Thermophysics,2015,36(10):2287-2292.
[15]JI J,FAN C G,ZHONG W,et al.Experimental investigation on influence of different transverse fire locations on maximum smoke temperature under the tunnel ceiling [J].International Journal of Heat and Mass Transfer,2012 (55):4817-4826.
[16]YAO Y Z,HE K,PENG M,et al.Maximum gas temperature rise beneath the ceiling in a portals-sealed tunnel fire [J].Tunnelling and Underground Space Technology,2018,80:10-15.
[17]刘晓阳,李炎锋,李俊梅,等.纵向通风条件下对隧道内烟气运动影响因素的实验研究[J].中国安全生产科学技术,2012,8(4):24-28. LIU Xiaoyang,LI Yanfeng,LI Junmei,et al.Experimental study on the effect of longitudinal ventilation and factors on smoke movement in tunnels[J].Journal of Safety Science and Technology,2012,8(4):24-28.
[18]范梦琳,李元洲.车辆阻塞效应下隧道火灾烟气温度及烟气逆流长度变化规律研究[J].火灾科学,2017,26(1):29-36. FAN Menglin,LI Yuanzhou.Numerical study on smoke temperature and back-layering length in tunnel fires with vehicle blockage [J].Fire Safety Science,2017,26(1):29-36.

相似文献/References:

[1]周煜琴,林龙沅.运输设备对巷道火灾烟气流动的影响[J].中国安全生产科学技术,2012,8(6):16.
 ZHOU Yu qin,LIN Long yuan.Study on the impact of conveying equipment on fire smoke flow in mine roadway[J].JOURNAL OF SAFETY SCIENCE AND TECHNOLOGY,2012,8(2):16.

备注/Memo

备注/Memo:
收稿日期: 2020-10-13
* 基金项目: 国家重点研发计划项目(2018YFC0808104)
作者简介: 马砺,博士,教授,主要研究方向为火灾防控理论和应急救援技术。
更新日期/Last Update: 2021-03-11