|本期目录/Table of Contents|

[1]韦世豪,杜扬,王世茂,等.不同形状受限空间内油气爆燃特性的实验研究[J].中国安全生产科学技术,2017,13(5):41-47.[doi:10.11731/j.issn.1673-193x.2017.05.007]
 WEI Shihao,DU Yang,WANG Shimao,et al.Experimental study on deflagration characteristics of gasoline-air mixture in confined space with different shapes[J].JOURNAL OF SAFETY SCIENCE AND TECHNOLOGY,2017,13(5):41-47.[doi:10.11731/j.issn.1673-193x.2017.05.007]
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不同形状受限空间内油气爆燃特性的实验研究
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《中国安全生产科学技术》[ISSN:1673-193X/CN:11-5335/TB]

卷:
13
期数:
2017年5期
页码:
41-47
栏目:
学术论著
出版日期:
2017-05-31

文章信息/Info

Title:
Experimental study on deflagration characteristics of gasoline-air mixture in confined space with different shapes
文章编号:
1673-193X(2017)-05-0041-07
作者:
韦世豪杜扬王世茂李蒙
中国人民解放军后勤工程学院 军事供油工程系,重庆 401311
Author(s):
WEI Shihao DU Yang WANG Shimao LI Meng
Department of Military Petroleum Supply Engineering, Logistic Engineering University of PLA, Chongqing 401311, China
关键词:
油气受限空间爆燃超压火焰
Keywords:
gasoline-air mixture confined space deflagration overpressure flame
分类号:
X932
DOI:
10.11731/j.issn.1673-193x.2017.05.007
文献标志码:
A
摘要:
基于实验对4个不同形状的20L容器内的油气爆燃过程进行了研究,探讨了不同形状受限空间内爆炸压力荷载的变化和火焰行为的区别。结果表明:管道(短管和长管)的压力时序曲线较容积式受限空间(球形容器和立方体容器)的压力时序曲线更复杂,并且出现压力振荡;随着初始浓度的增加,超压值和平均升压速率均先增大后减小,在浓度为1.74%时达到最大值,此时,超压从大到小依次为:长管>短管>立方体>球形容器,平均升压速率从大到小依次为:短管>立方体>长管>球形容器;在爆燃初期,立方体中火焰行为为半球状层流火焰→扁平层流火焰,火焰速度先增大后减小,最大速度为12.5 m/s,长管中火焰行为为半球状层流火焰→拉伸指状火焰,火焰速度一直增大,最大速度为40 m/s。
Abstract:
The deflagration processes of gasoline-air mixture in four 20L vessels with different shapes were studied based on experiments, and the change of explosion pressure load and the difference of flame behavior in confined space with different shapes were discussed. The results showed that the pressure time-sequence curves of the tubes (short tube and long tube) were more complex than those of the volumetric confined space (spherical vessel and cubic vessel), with the appearance of pressure oscillation. The overpressure and the average rate of overpressure rise showed the same trend of increasing first and then decreasing with the increase of the initial concentration, and reached the maximum values when the concentration was 1.74%. At this moment, the sequence of the overpressure from large to small was long tube, short tube, cubic vessel and spherical vessel, and the sequence of the average rate of overpressure rise from large to small was short tube, cubic vessel, long tube and spherical vessel. In the early stage of deflagration, the flame behavior in the cubic vessel was the translation from hemispherical laminar flame into flat laminar flame, the flame velocity increased first and then decreased, and the maximum velocity was 12.5 m/s. While the flame behavior in the long tube was the translation from hemispherical laminar flame into stretched finger shape flame, the flame velocity increased continuously, and the maximum velocity was 40 m/s.

参考文献/References:

[1]张鸿鹤, 任常兴, 张欣,等. 20 L球内油气爆炸压力影响因素研究[J]. 消防科学与技术, 2012, 31(8):786-788. ZHANG Honghe, REN Changxing, ZHANG Xin, et al, Study on explosion pressure influence factors of oil-gas mixture in 20 L apparatus[J]. Fire science and technology,2012,31(8):786-788.
[2]刘文辉, 蒋新生, 何标,等. 氧气体积分数对油气爆炸特性的影响[J]. 后勤工程学院学报, 2014, 30(5):47-52. LIU Wenhui, JIANG Xinsheng, HE Biao, et al. Influence of oxygen volume fraction on explosion characteristics of gas-air mixture[J]. Journal of Logistical Engineering University, 2014,30(5):47-52.
[3]Qi S, Du Y, Wang S, et al. The effect of vent size and concentration in vented gasoline-air explosions[J]. Journal of Loss Prevention in the Process Industries, 2016, 44:88-94.
[4]许光, 张健中, 赵雯晴,等. 加油站埋地油罐油气爆炸事故模拟试验[J]. 中国安全科学学报, 2016, 26(4):50-54. XU Guang, ZHANG Jianzhong, ZHAO Wenqing, et al. Experimental simulation of underground oil tank explosion accidents in fuel filling station[J].China Safety Science Journal, 2016,26(4):50-54.
[5]张毅, 张健中, 张卫华,等. 加油站埋地油罐人孔井油气爆炸事故模拟实验[J]. 安全、健康和环境, 2015, 15(4):38-41. ZHANG Yi, ZHANG Jianzhong,ZHANG Weihua,et al. Stimulation experiment on oil & gas explosion accident of underground storage oil tank at gas station[J].Safety Health & Environment,2015,15(4):38-41.
[6]吴松林, 杜扬, 张培理,等. 点火方式对受限空间油气爆燃规律的影响[J]. 化工学报, 2016, 67(4):1626-1632. WU Songlin,DU Yang,ZHANG Peili,et al. Effect of ignition node on gasoline-air deflagration behavior in confined space[J]. CIESC Journal,2016,67(4):1626-1632.
[7]欧益宏, 杜扬, 蒋新生,等. 热源条件下油气二次热着火实验[J]. 爆炸与冲击, 2011, 31(5):510-515. OU Yihong,DU Yang,JIANG Xinsheng,et al. Secondary thermal ignition of gasoline-air mixture induced by hot source[J].Explosion and Shock Waves,2011,31(5):510-515.
[8]Du Y, Zhang P, Zhou Y, et al. Suppressions of gasoline-air mixture explosion by non-premixed nitrogen in a closed tunnel[J]. Journal of Loss Prevention in the Process Industries, 2014,31(2):113-120.
[9]张培理, 杜扬. 油气爆炸过程火焰燃烧模式的实验估计[J]. 爆炸与冲击, 2016, 36(5):688-694. ZHANG Peili, Du Yang. Experimental estimation ofthe combustion regime in oil-gas explosion process[J]. Explosion and Shock Waves, 2016,36(5):688-694.
[10]Zhang P, Du Y, Zhou Y, et al. Explosions of gasoline-air mixture in the tunnels containing branch configuration[J]. Journal of Loss Prevention in the Process Industries, 2013,26(6):1279-1284.
[11]Li G, Du Y, Qi S, et al. Explosions of gasoline-air mixtures in a closed pipe containing a T-shaped branch structure[J]. Journal of Loss Prevention in the Process Industries, 2016,43:529-536.
[12]李阳超, 杜扬, 王世茂,等. 端部开口受限空间汽油蒸气爆燃超压特性研究[J]. 中国安全生产科学技术, 2016, 12(7):32-36. LI Yangchao, DU Yang,WANG Shimao, et al. Study on characteristics of deflagration overpressure for gasoline vapor in confined space with end opening[J].Journal of Safety Science and Technology, 2016,12(7):32-36.
[13]Qi S, Du Y, Zhang P, et al. Effects of Concentration, Temperature, Humidity, and Nitrogen Inert Dilution on the Gasoline Vapor Explosion[J]. Journal of Hazardous Materials,2017, 323(2): 593-601.
[14]朱传杰, 林柏泉, 江丙友,等. 瓦斯爆炸在封闭管道内冲击振荡特征的数值模拟[J]. 振动与冲击, 2012, 31(16):8-12. ZHU Chuanjie, LIN Baiquan, JIANG Bingyou, et al. Numerical simulation on oscillation and shock of gas explosion in a closed end pipe [J]. Journal of Vibration and Shock, 2012, 31(16):8-12.
[15]贾真真, 林柏泉. 管内瓦斯爆炸传播影响因素及火焰加速机理分析[J]. 矿业工程研究, 2009, 24(1):57-62. JIA Zhenzhen,LIN Boquan. Analysis on flame acceleration mechanism and affecting factors of methane explosion propagation in duct[J]. Mineral Engineering Research, 2009,24(1):57-62.
[16]Vandebroek L, Schoor F V D, Verplaetsen F, et al. Flammability limits and explosion characteristics of toluene-nitrous oxide mixtures[J]. Journal of Hazardous Materials, 2005,120(1-3):57-65.
[17]Razus D, Movileanu C, Brinzea V, et al. Explosion pressures of hydrocarbon-air mixtures in closed vessels[J]. Journal of Hazardous Materials, 2006,135(1-3):58-65.
[18]Koshiba Y, Nishida T, Morita N, et al. Explosion behavior of n-alkane/nitrous oxide mixtures[J]. Process Safety and Environmental Protection, 2015,98:11-15.
[19]Cashdollar K L, Zlochower I A, Green G M, et al. Flammability of methane, propane, and hydrogen gases[J]. Journal of Loss Prevention in the Process Industries, 2000,13(3):327-340.
[20]Bao Q, Fang Q, Zhang Y, et al. Effects of gas concentration and venting pressure on overpressure transients during vented explosion of methane-air mixtures[J]. Fuel, 2016,175:40-48.

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备注/Memo

备注/Memo:
国家自然科学基金项目(51276195)
更新日期/Last Update: 2017-06-09