Simulation of dust lifting process induced by gas explosion disaster in underground coal mine

被引:0
|
作者
Zhu Chuanjie [1 ]
Lin Baiquan
Jiang Bingyou
Liu Qian
Hong Yidu
机构
[1] China Univ Min & Technol, Sch Safety Engn, Xuzhou 221116, Jiangsu, Peoples R China
来源
DISASTER ADVANCES | 2012年 / 5卷 / 04期
关键词
Gas explosion; dust; simulation; coal mine; SHOCK; PARTICLES;
D O I
暂无
中图分类号
P [天文学、地球科学];
学科分类号
07 ;
摘要
In order to find out the characteristics of the dust lifting process behind a shock wave and its influence parameters, the E-E method was used to study the influence of gas velocity, dust density and particle size on the dust lifting process. The results show that the dust was lifted well under a low gas velocity (100 - 300 m/s) before the shock wave. The dust density between 1000 kg/m(3) and 3000 kg/m(3) has little influence on the dust lifting ability. However, the particle size has a significant influence on the dust lifting process. The dust was not well lifted because of a heavier single dust particle when the particle diameter was bigger than 0.1mm. In contrast, the dust was well lifted into the space and the dust cloud was more uniform.
引用
收藏
页码:1407 / 1413
页数:7
相关论文
共 50 条
  • [31] Mechanism research of gas and coal dust explosion
    ZHANG Yansong HAN Lili WANG Lei Chongqing Research Institute China Coal Research Institute Chongqing China School of Civil and Environment Engineering University of Science and Technology Beijing Beijing China
    [J]. Journal of Coal Science & Engineering(China), 2009, 15 (02) : 171 - 174
  • [32] Mechanism research of gas and coal dust explosion
    ZHANG Yan-song~1 HAN Li-li~2 WANG Lei~1 ( 1. Chongqing Research Institute
    2. School of Civil and Environment Engineering
    [J]. International Journal of Coal Science & Technology, 2009, (02) : 171 - 174
  • [33] Research on numerical emulator of mine methane and coal dust explosion
    Niu Steve
    [J]. International Journal of Coal Science & Technology, 2008, (03) : 447 - 452
  • [34] Gas explosion hazard in underground coal mining in Kuzbass
    Kozlovsky, E. A.
    Sharov, G. N.
    Kontorovich, A. E.
    Gritsko, G. I.
    Kuznetsov, F. A.
    Kurlenya, M. V.
    Kovalev, V. A.
    Rostovtsev, V. I.
    Belozerov, I. M.
    Tchernook, V. A.
    Minin, V. A.
    Vashlaeva, N. Yu
    [J]. CHALLENGES FOR DEVELOPMENT IN MINING SCIENCE AND MINING INDUSTRY, 2019, 262
  • [35] Application of three-dimensional modeling and simulation in studying gas explosion in coal mine
    Che Defu
    Wu Lixin
    Chen Xuexi
    Xu Lei
    [J]. PROGRESS IN SAFETY SCIENCE AND TECHNOLOGY, VOL 6, PTS A AND B, 2006, 6 : 1672 - 1675
  • [36] Application of foam technology for dust control in underground coal mine
    Ren Wanxing
    Wang Deming
    Guo Qing
    Zuo Bingzhao
    [J]. International Journal of Mining Science and Technology, 2014, 24 (01) : 13 - 16
  • [37] Application of foam technology for dust control in underground coal mine
    Ren Wanxing
    Wang Deming
    Guo Qing
    Zuo Bingzhao
    [J]. INTERNATIONAL JOURNAL OF MINING SCIENCE AND TECHNOLOGY, 2014, 24 (01) : 13 - 16
  • [38] Analysis on the Acceleration of Composite Flame and the Strengthening Mechanism of Disaster in the Initial Stage of Gas/Coal Dust Explosion
    Pei, Bei
    Zhu, Zhi-Yin
    Yu, Ming-Gao
    Chen, Li-Wei
    Zhang, Zi-Yang
    Wang, Yan
    [J]. Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics, 2021, 42 (07): : 1879 - 1886
  • [39] Acceleration characteristics of composite flame in the initial stage of gas/ coal dust explosion and analysis of disaster intensification
    Bei, Pei
    Jiaqi, Guo
    Zhiyin, Zhu
    Liwei, Chen
    Chang, Lu
    Jing, Guoxun
    [J]. JOURNAL OF LOSS PREVENTION IN THE PROCESS INDUSTRIES, 2023, 85
  • [40] Explosion and explosion suppression of gas/deposited coal dust in a realistic environment
    Cheng, Chunlian
    Si, Rongjun
    Wang, Lei
    Jia, Quansheng
    Xin, Chengpeng
    [J]. FUEL, 2024, 357
12345