坚硬砂岩顶板条件下采空区瓦斯运移规律
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摘要
以夏阔坦煤矿1007综放工作面为研究背景,运用FLUENT软件模拟分析砂岩顶板条件下采空区瓦斯运移规律。随着工作面的推进,上覆顶板岩石垮落在采空区内,在垮落过程中质量大的岩块相互撞击摩擦,一方面会在采空区内产生高温摩擦点并伴随有摩擦火花产生,另一方面对于采空区多孔介质的渗透率影响较大,大量的岩块垮落在一起,为采空区内瓦斯气体自由逸散和混合提供了有利条件。通过模拟分析研究,尽可能避免瓦斯燃爆事故的发生,且对煤矿安全生产提供可靠的依据。
Taking the 1007 fully mechanized caving face in Xiakuotan coal mine as the research background,FLUENT software is used to simulate the gas migration law in goaf under sandstone roof condition.With the advancement of the working face,the overlying roof rock falls into the goaf,and the rock mass with high mass collides with each other during the slumping process.On the one hand,high temperature friction points are generated in the goaf with frictional sparks.On the other hand,it has a great influence on the permeability of the porous medium in the goaf,and a large number of rock blocks fall together,which provides favorable conditions for the free escape and mixing of gas in the goaf.Through simulation analysis and research,it is possible to avoid the occurrence of gas explosion accidents as much as possible,and provide a reliable basis for coal mine safety production.
Taking the 1007 fully mechanized caving face in Xiakuotan coal mine as the research background,FLUENT software is used to simulate the gas migration law in goaf under sandstone roof condition.With the advancement of the working face,the overlying roof rock falls into the goaf,and the rock mass with high mass collides with each other during the slumping process.On the one hand,high temperature friction points are generated in the goaf with frictional sparks.On the other hand,it has a great influence on the permeability of the porous medium in the goaf,and a large number of rock blocks fall together,which provides favorable conditions for the free escape and mixing of gas in the goaf.Through simulation analysis and research,it is possible to avoid the occurrence of gas explosion accidents as much as possible,and provide a reliable basis for coal mine safety production.
引文
[1]秦跃平,朱建芳,陈永权,等.综放开采采空区瓦斯运移规律的模拟试验研究[J].煤炭科学技术,2003,31(11):13-16.QIN Yueping,ZHU Jianfang,CHEN Yongquan,et al.Simulation test study on gas migration law in goaf of fully mechanized top coal caving[J].Journal of Coal Science and Technology,2003,31(11):13-16.
[2]王文才,赵晓坤.基于不同通风方式治理上隅角瓦斯超限的研究[J].煤炭技术,2016,35(7):127-128.WANG Wencai,ZHAO Xiaokun.Study on the treatment of gas overrun of upper corner based on different ventilation methods[J].Coal Technology,2016,35(7):127-128.
[3]赵鹏翔,卓日升,李树刚,等.综采工作面推进速度对瓦斯运移优势通道演化的影响[J].煤炭科学技术,2018,46(7):99-108.ZHAO Pengxiang,ZHUO Risheng,LI Shugang,et al.The influence of the speed of fully mechanized mining face on the evolution of the dominant channel of gas migration[J].Coal Science and Technology,2018,46(7):99-108.
[4]赵奇,王雪峰,黄戈,等.采空区瓦斯抽采技术与浮煤自燃耦合治理研究[J].煤炭科学技术,2017,45(10):111-116.ZHAO Qi,WANG Xuefeng,HUANG Ge,et al.Study on coupling treatment of gas drainage technology and floating coal spontaneous combustion in goaf[J].Journal of Coal Science and Technology,2017,45(10):111-116.
[5]凡永鹏,王钰博.塔山矿特厚煤层综放面采空区瓦斯治理措施研究[J].中国安全科学学报,2016,26(12):116-121.FAN Yongpeng,WANG Yubo.Study on gas control measures in goaf of fully mechanized caving face of Tashan coal mine[J].China Safety Science Journal,2016,26(12):116-121.
[6]杨胜强,秦毅,孙家伟,等.高瓦斯易自燃煤层瓦斯与自燃复合致灾机理研究[J].煤炭学报,2014,39(6):1094-1101.YANG Shengqiang,QIN Yi,SUN Jiawei,et al.Study on the mechanism of gas disaster and spontaneous combustion in high gassy spontaneous combustion coal seam[J].Journal of China Coal Society,2014,39(6):1094-1101.
[7]刘晓刚,樊少武,汪东,等.王坡煤矿综放工作面采动覆岩破裂高度研究[J].煤炭科学技术,2015,43(4):35-38.LIU Xiaogang,FAN Shaowu,WANG Dong,et al.Study on the fracture height of overburden strata in fully mechanized caving face in Wangpo coal mine[J].Journal of Coal Science and Technology,2015,43(4):35-38.
[8]陈峰真,李治刚.采空区瓦斯抽采方法及效果分析[J].山东煤炭科技,2018(3):80-82.CHEN Fengzhen,LI Zhigang.Gas extraction method and effect analysis in goaf[J].Shandong Coal Science and Technology,2018(3):80-82.
[9]陈冲冲,张学博,闫潮.采空区瓦斯涌出源位置对瓦斯分布影响的数值模拟[J].安全与环境学报,2015,15(5):100-103.CHEN Chongchong,ZHANG Xuebo,YAN Chao.Numerical simulation of influence of gas emission source position on gas distribution in goaf[J].Journal of Safety and Environment,2015,15(5):100-103.
[10]常彦飞.综采面U+L型通风方式Fluent采空区瓦斯分布规律研究[J].采矿技术,2018,18(2):37-38.CHANG Yanfei.Study on gas distribution law in Fluent goaf of U+L ventilation system in fully mechanized face[J].Mining Technology,2018,18(2):37-38.
[11]刘佳佳,魏春荣.高抽巷抽采负压优化的数值模拟[J].煤矿安全,2018,49(2):35-38,42.LIU Jiajia,WEI Chunrong.Numerical simulation of negative pressure optimization in high drainage roads[J].Coal Mine Safety,2018,49(2):35-38,42.
[2]王文才,赵晓坤.基于不同通风方式治理上隅角瓦斯超限的研究[J].煤炭技术,2016,35(7):127-128.WANG Wencai,ZHAO Xiaokun.Study on the treatment of gas overrun of upper corner based on different ventilation methods[J].Coal Technology,2016,35(7):127-128.
[3]赵鹏翔,卓日升,李树刚,等.综采工作面推进速度对瓦斯运移优势通道演化的影响[J].煤炭科学技术,2018,46(7):99-108.ZHAO Pengxiang,ZHUO Risheng,LI Shugang,et al.The influence of the speed of fully mechanized mining face on the evolution of the dominant channel of gas migration[J].Coal Science and Technology,2018,46(7):99-108.
[4]赵奇,王雪峰,黄戈,等.采空区瓦斯抽采技术与浮煤自燃耦合治理研究[J].煤炭科学技术,2017,45(10):111-116.ZHAO Qi,WANG Xuefeng,HUANG Ge,et al.Study on coupling treatment of gas drainage technology and floating coal spontaneous combustion in goaf[J].Journal of Coal Science and Technology,2017,45(10):111-116.
[5]凡永鹏,王钰博.塔山矿特厚煤层综放面采空区瓦斯治理措施研究[J].中国安全科学学报,2016,26(12):116-121.FAN Yongpeng,WANG Yubo.Study on gas control measures in goaf of fully mechanized caving face of Tashan coal mine[J].China Safety Science Journal,2016,26(12):116-121.
[6]杨胜强,秦毅,孙家伟,等.高瓦斯易自燃煤层瓦斯与自燃复合致灾机理研究[J].煤炭学报,2014,39(6):1094-1101.YANG Shengqiang,QIN Yi,SUN Jiawei,et al.Study on the mechanism of gas disaster and spontaneous combustion in high gassy spontaneous combustion coal seam[J].Journal of China Coal Society,2014,39(6):1094-1101.
[7]刘晓刚,樊少武,汪东,等.王坡煤矿综放工作面采动覆岩破裂高度研究[J].煤炭科学技术,2015,43(4):35-38.LIU Xiaogang,FAN Shaowu,WANG Dong,et al.Study on the fracture height of overburden strata in fully mechanized caving face in Wangpo coal mine[J].Journal of Coal Science and Technology,2015,43(4):35-38.
[8]陈峰真,李治刚.采空区瓦斯抽采方法及效果分析[J].山东煤炭科技,2018(3):80-82.CHEN Fengzhen,LI Zhigang.Gas extraction method and effect analysis in goaf[J].Shandong Coal Science and Technology,2018(3):80-82.
[9]陈冲冲,张学博,闫潮.采空区瓦斯涌出源位置对瓦斯分布影响的数值模拟[J].安全与环境学报,2015,15(5):100-103.CHEN Chongchong,ZHANG Xuebo,YAN Chao.Numerical simulation of influence of gas emission source position on gas distribution in goaf[J].Journal of Safety and Environment,2015,15(5):100-103.
[10]常彦飞.综采面U+L型通风方式Fluent采空区瓦斯分布规律研究[J].采矿技术,2018,18(2):37-38.CHANG Yanfei.Study on gas distribution law in Fluent goaf of U+L ventilation system in fully mechanized face[J].Mining Technology,2018,18(2):37-38.
[11]刘佳佳,魏春荣.高抽巷抽采负压优化的数值模拟[J].煤矿安全,2018,49(2):35-38,42.LIU Jiajia,WEI Chunrong.Numerical simulation of negative pressure optimization in high drainage roads[J].Coal Mine Safety,2018,49(2):35-38,42.
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