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Title
Application and Study on Permeability Improvement Effect by Pressure Relief in Mining-induced Coal Body
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作者
王凯郑吉玉夏威李鹏李聪
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Author
WANG Kai ZHENG Jji-yu XIAWei LI Peng LI Cong
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单位
中国矿业大学(北京)资源与安全工程学院
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Organization
School of Resources and Safty Engineering, China University of Mining and Technology ( Beiing)
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摘要
为研究采煤工作面前方煤体卸压增透效应,提高煤体卸压瓦斯抽采量,分析了采煤工作面前方采动煤体变形破坏与渗透率变化过程的相关性,在工作面前方卸压区,煤体发生滑移破坏,有明显的扩容及卸压增透效应。现场实测了工作面前方煤体应力及钻孔瓦斯流量随工作面推进过程的变化规律,确定了支承压力区、卸压区分布范围。在卸压区内,因煤体渗透率增大,钻孔瓦斯平均流量提高2~3倍。基于工作面前方煤体卸压增透效应,根据不同钻孔失效距离及卸压区宽度,给出了不同偏角(钻孔与垂直煤壁方向夹角)下的预抽钻孔卸压瓦斯抽采量计算式。分析结果表明:钻孔偏角越大,卸压瓦斯抽采量越大。结合某矿N2105工作面现场条件进行计算,得出钻孔偏角最大可为21.4°,相比原垂直煤壁钻孔,单孔卸压瓦斯抽采量可增加978.5 m3,预期可有效提高本煤层瓦斯抽采率。
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Abstract
In order to study the coal body permeability improvement effect by pressure relief ahead of mining face and improve gas drainage quantity, the paper an
alyzed the correlation of coal body deformation failure and permeability change ahead of mining face. In pressure relief zone ahead of mining face, coal body slip failure
occurred, which had marked expansion and permeability improvement effect. The authors tested the change laws of coal body stress ahead of working face and borehol .
es gas flow with advance of the face in site, the distribution scope of the abutment pressure zone and pressure relief zone were determined. In pressure relief zone, be
cause coal permeability increased, the average borehole gas flow increased by 2 ~ 3 times. Based on coal permeability increasing effect by pressure relief ahead of Co
al face, pre-drainage boreholes pressure relief gas drainage quantity calculation formula with different angles were achieved on the basis of varied borehole failure dist
ance and pressure relief zone width. The results showed that the larger the borehole angle was, the bigger pressure relief gas drainage quantity was. In combination wit
h geological conditions of No. N2015 coal face in some mine to calculate, borehole angle could reach the max value 21.4°, compared with original coal body vertical bo
reholes, single pressure relief borehole gas drainage could improve 978.5 m3, which could effectively improve the coal seam gas drainage rate.
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关键词
瓦斯抽采卸压增透采动煤体钻孔布置煤体渗透率
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KeyWords
gas drainage; permeability improvement by pressure relief; mining-induced coal body; boreholes layout; coal body permeability;
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基金项目(Foundation)
国家自然科学基金资助项目(51174212,51304213);高等学校博士学科点专项科研基金博导类课题资助项目(20120023110006);河南省瓦斯地质与瓦斯治理重点实验室——省部共建国家重点实验室培育基地开放课题资助项目(WS2012A01,WS2013A03);中国矿业大学煤炭资源与安全开采国家重点实验室开放基金资助项目(SKLCRSM13KFB08);中央高校基本科研业务费专项基金资助项目(2010QZ05,2013QZ01);
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