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WANG Liancong, SUN Yong, FENG Wenbin, CHEN Yang, ZHANG Depeng, YIN Zhanchun, WANG Gang. Field Experiment Study on CO Generation and Sources Law in Coal Seam Mining[J]. Safety in Coal Mines, 2014, 45(12): 43-45,50.
Citation: WANG Liancong, SUN Yong, FENG Wenbin, CHEN Yang, ZHANG Depeng, YIN Zhanchun, WANG Gang. Field Experiment Study on CO Generation and Sources Law in Coal Seam Mining[J]. Safety in Coal Mines, 2014, 45(12): 43-45,50.
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Field Experiment Study on CO Generation and Sources Law in Coal Seam Mining

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  • Published Date: December 19, 2014
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    • Abstract
  • According to the phenomenon of CO abnormal overrun of return airflow corner in the coal seam mining currently, the CO generation and sources law in coal seam mining was studied by field experiment. The results showed that the rising of CO concentration in the return airflow corner appeared mainly in the normal mining, in other words, the increase of CO concentration was closely related to the mining process. The original existence CO in the coal seam was one of the important causes for leading to the CO abnormal overrun of return airflow corner in the normal mining of coal seam in Fengshuigou Coal Mine and Laogongyingzi Coal Mine. Before and after coal body crushing and the degree of crushing had a great influence on the CO generation. The smaller the particle size of coal was and the larger the specific surface area, the more of the CO generation was. The main source of the CO of return airflow corner in the coal seam mining was the low-temperature oxidation in the coal body crushing process in the main coal seam of Fengshuigou Coal Mine and Laogongyingzi Coal Mine.
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    • References (8)
  • [1]
    贾海林,余明高,徐永亮.矿井CO气体成因类型及机理辨识分析[J].煤炭学报,2013(10):1812-1818.
    [2]
    梁运涛.煤炭自然发火预测预报的气体指标法[J].煤炭科学技术,2008(6):5-8.
    [3]
    张德鹏,王志刚,孙勇,等.我国煤矿CO超限研究现状及趋势[J].煤矿安全,2013(4):183-185.
    [4]
    朱令起,王月红,郭立稳.东欢坨煤矿煤层赋存CO影响因素分析[J].煤矿安全,2005(8):53-55.
    [5]
    王连聪,陈洋.大柳塔矿周边小窑火区危害评价及治理方案[J].煤矿安全,2013(8):135-136.
    [6]
    胡楠.红庙矿煤层自然发火特性及CO涌出规律研究[D].阜新:辽宁工程技术大学,2012.
    [7]
    宋万新,杨胜强,蒋春林,等.含瓦斯风流条件下煤自燃产物CO生成规律的实验研究[J].煤炭学报,2012(8):1320-1325.
    [8]
    邬剑明,郭惠宇,宋金旺,等.解吸法测定塔山矿煤层原生CO含量的试验研究[J].煤炭科学技术,2010(6):54-56.
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