高家庄煤矿回风大巷水害探测技术
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摘要
高家庄煤矿回风大巷在掘进施工过程中,工作面涌水量突然增大,并且水压和水量均超出正常范围。为了避免回风大巷掘进过程中的突发涌水事故,基于EH4大地电磁法电磁探测成像技术原理,通过在回风大巷掘进迎头对应地表区域合理布置测网,采用EH4对巷道掘进迎头53 457 m~2范围进行勘探,根据勘探结果视电阻率的变化,并结合地质条件综合分析圈定了回风大巷积水区范围和涌水来源。研究结果表明了EH4大地电磁法在积水区勘探中的有效性,进而为制定出合理的探放水方案和探放水技术措施提供可靠依据。
During the excavation construction of the return airway of Gaojiazhuang Coal Mine, the amount of water in the working surface suddenly increased, and the water pressure and water volume exceeded the normal range. In order to avoid water inrush accidents in the excavation process of a coal mine air return roadway, based on the principle of electromagnetic detection imaging technology of EH4 magnetotelluric method and reasonably arranging the measuring network in the surface area corresponding to the heading face of the return air tunnel, EH4 is used to explore the roadway heading area of 53 457 m~2. According to the change of apparent resistivity exploration results, the area of stagnant water and the source of gushing water were delineated combined with the comprehensive analysis of geological conditions. The results show the effectiveness of EH4 magnetotelluric method in water area exploration, which provides reliable basis for formulating reasonable exploration and drainage plan and technical measures.
During the excavation construction of the return airway of Gaojiazhuang Coal Mine, the amount of water in the working surface suddenly increased, and the water pressure and water volume exceeded the normal range. In order to avoid water inrush accidents in the excavation process of a coal mine air return roadway, based on the principle of electromagnetic detection imaging technology of EH4 magnetotelluric method and reasonably arranging the measuring network in the surface area corresponding to the heading face of the return air tunnel, EH4 is used to explore the roadway heading area of 53 457 m~2. According to the change of apparent resistivity exploration results, the area of stagnant water and the source of gushing water were delineated combined with the comprehensive analysis of geological conditions. The results show the effectiveness of EH4 magnetotelluric method in water area exploration, which provides reliable basis for formulating reasonable exploration and drainage plan and technical measures.
引文
[1]潘国营.煤矿水害探查和评价[M].北京:煤炭工业出版社,2013.
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[8]孙浩,李永军,李琛.陷落柱导富水性综合探测技术[J].华北科技学院学报,2014,11(9):31-37.
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[10]孙丽丽,李金锋,闫国才,等.EH4电磁成像系统在煤矿采空区的探测[J].能源技术与管理,2013,38(1):140-142.
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[12]杨春利,潘纪顺,王宁,等.EH4电磁法在寻找煤矿富水区中的应用[J].华北水利水电学院学报,2013,34(6):77-80.
[2]孙林.电阻率测深法在煤矿水害探测中的应用[J].中州煤炭,2016(12):143-146.
[3]赵辉,熊祖强,王文.瞬变电磁法在掘进水害探测中的应用[J].煤炭技术,2010,29(11):97-99.
[4]李扬.可控源音频大地电磁法在煤矿水害探测中的应用[J].峰煤科技,2014(3):10-16.
[5]朱由军,高明青.大地电磁在探测顶板砾岩含水性中的应用研究[J].煤炭工程,2008(10):70-73.
[6]贾建江,蔡青山,窦海鹏.EH4电磁成像系统在隐伏矿体定位预测中的应用[J].西部探矿工程,2015(10):130-134.
[7]王玉和,王厚臣,程久龙,等.EH4电磁方法在断层定位及导水性探测中的应用[J].山东科技大学学报(自然科学版),2010,29(4):35-39.
[8]孙浩,李永军,李琛.陷落柱导富水性综合探测技术[J].华北科技学院学报,2014,11(9):31-37.
[9]王建军,田成富,高桥松.浅谈EH4电磁测深法在采空区勘察中的应用[J].工程地质物理学报,2014,11(2):173-177.
[10]孙丽丽,李金锋,闫国才,等.EH4电磁成像系统在煤矿采空区的探测[J].能源技术与管理,2013,38(1):140-142.
[11]王帅,白楠.EH4电磁法在煤矿采空区及其富水性探测中的应用[J].科技经济导刊,2016(22):77.
[12]杨春利,潘纪顺,王宁,等.EH4电磁法在寻找煤矿富水区中的应用[J].华北水利水电学院学报,2013,34(6):77-80.
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