[1]秋珊珊①②,曹卫国①,黄丽媛①,等.石松子粉粉尘爆炸试验研究[J].爆破器材,2012,41(03):16-18.
 QIU Shanshan,CAO Weiguo,HUANG Liyuan,et al.Experimental Research on Lycopodium Dust Explosion[J].EXPLOSIVE MATERIALS,2012,41(03):16-18.
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石松子粉粉尘爆炸试验研究()
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《爆破器材》[ISSN:1001-8352/CN:32-1163/TJ]

卷:
41
期数:
2012年03
页码:
16-18
栏目:
基础理论
出版日期:
2012-06-20

文章信息/Info

Title:
Experimental Research on Lycopodium Dust Explosion
文章编号:
4483
作者:
秋珊珊①②曹卫国黄丽媛张建新潘峰①②
①南京理工大学化工学院(江苏南京,210094)
②国家民用爆破器材质量监督检验中心(江苏南京,210094)
Author(s):
QIU Shanshan①② CAO Weiguo HUANG Liyuan ZHANG Jianxin PAN Feng①②
①School of Chemical Engineering, Nanjing University of Science and Technology (Jiangsu Nanjing, 210094)
②National Quality Supervision and Inspection Center for Industrial Explosive Materials (Jiangsu Nanjing, 210094)
关键词:
石松子粉粉尘爆炸爆炸下限浓度最大爆炸压力爆炸指数
Keywords:
lycopodium dust explosion lower explosive limit maximum explosion pressure explosion index
分类号:
X932
文献标志码:
A
摘要:
该论文采用20 L球形爆炸测试装置对粒径在75 μm以下的石松子粉的粉尘爆炸下限浓度、爆炸压力和爆炸指数随粉尘浓度的变化规律等进行了研究。研究结果表明:石松子粉粉尘爆炸下限浓度在20~40 g/m3之间,在粉尘浓度相对较低的60~500 g/m3时,粉尘的爆炸压力和爆炸指数随着粉尘浓度的提高而急速上升,在浓度为500 g/m3时达到最大,此时最大爆炸压力为0.69 MPa,爆炸指数为17.20 MPa?m/s;继续增加粉尘浓度,爆炸压力和爆炸指数略有下降,但仍维持在较高值;并判定石松子粉粉尘爆炸危险性分级为Ⅰ级。
Abstract:
In order to investigate the explosion characteristics in terms of the lower explosion limit, the explosion pressure and the explosion index with the variability of the dust concentration of the lycopodium with grain size less than 75 μm, the dust explosion was experimentally studied using a 20 L sphere explosion test unit. The results showed that the lower explosion limit of lycopodium was in the range of 20~40 g/m3. On one hand, the dust explosion pressure and the explosion index increased significantly with the dust concentration when the concentration was in the relative low range 60~500 g/m3, in which the maximum explosion pressure of 0.69 MPa and the maximum explosion index of 17.20 MPa?m/s were obtained when the concentration reached 500 g/m3. On the other hand, the concentration higher than 500 g/m3 had no impact on these two values. Furthermore, both of the values decreased slightly but still stayed at the relatively high level. Accordingly the classification of lycopodium dust explosion hazard is rated to Level I.

参考文献/References:

[1]Amyotte P. R., Eckhoff R. K. Dust Explosion Causation, Prevention and Mitigation: An Overview[J]. Journal of Chemical Health and Safety,2010,17(1):15-28.
[2]Kuai N.S., Li J.M., Chen Z., et al. Experiment-based Investigations of Magnesium Dust Explosion Characteristics[J]. J. Loss Prevent.Proc.,2011, 24(4): 302-313.
[3]Eckhoff R. Current Status and Expected Future Trends in Dust Explosion Research[J]. J. Loss Prevent.Proc.,2005,18(4):225-237.
[4]饶国宁, 陈网桦, 方卿, 等. 膨化硝铵炸药粉尘爆炸性的初步实验研究[J]. 爆破器材,2009, 38(2):11-12.
[5]Frank W. L. Dust Explosion Prevention and the Critical Importance of Housekeeping[J]. Process Saf.Prog.,2004,23(3):175-184.
[6]秦建玉, 李生才. 2011年12月国内安全生产事故统计分析[J]. 安全与环境学报,2011,11(2): 253-256.
[7]潘峰, 马超, 曹卫国, 等. 玉米淀粉粉尘爆炸危险性研究[J]. 中国安全科学学报,2011,21(7):46-51.
[8]李恩科, 石焱. 粮食粉尘爆炸及防治技术的研究进展[J]. 环境科学与管理,2008,32(4):92-95.
[9]陆大才. 可燃粉尘燃烧爆炸因素及其预防分析[J]. 消防技术与产品信息,2010(7):57-62.
[10]Pennsylvania: Standards Press of America. American Society for Testing Material. E1491 Standard Test Method for Minimum Autoignition Temperature of Dust Clouds[S]. 2006.
[11]Pennsylvania: Standards Press of America. American Society for Testing Material. E1515 Standard Test Method for Minimum Explosible Concentration of Combustible Dusts[S]. 2007.
[12]Pennsylvania: Standards Press of America. American Society for Testing Material. E1226 Standard Test Method for Pressure and Rate of Pressure Rise for Combustible Dusts[S]. 2005.

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备注/Memo

备注/Memo:
收稿日期:2012-03-25
作者简介:秋珊珊(1981~),女,博士,工程师,主要研究危险货物运输及粉尘爆炸。
通讯作者:潘峰(1971~),男,博士,副教授,主要从事民用爆炸物品安全运输,粉尘爆炸等方面研究。
更新日期/Last Update: 2012-06-21