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瞬变电磁技术在顶板采空区积水探测中的应用OA

Application of Transient Electromagnetic Technology in Water Accumulation Detection in Roof Goaf

中文摘要英文摘要

针对煤层顶板采空区积水威胁工作面安全回采的难题,以山西宁武榆树坡煤业 5108工作面上覆 2#煤层采空区为研究对象,提出了采用矿井瞬变电磁法(TEM)进行疏放水工程动态监测,在 5108工作面进风顺槽、回风顺槽及切眼布设 103个测点,通过疏放水前与疏放水后探测数据定量对比,结合钻孔验证与水文地质资料,系统分析采空区积水疏放效果.结果表明:疏放水前以视电阻率阈值<15 Ω·m圈定了 4处低阻异常区(CKJS1、CKJS3、YC1、YC2,定位精度±8 m以内);经疏放水钻孔验证,CKJS1区疏放1745 m3 水量后异常完全消失,整体视电阻率提升 63%(均值由 12.8 Ω·m升至 20.9 Ω·m),疏放水工程显著改变了顶板采空区电性差异.矿井瞬变电磁法可实现采空区积水空间分布与疏放动态监测,为水害防治提供实时技术决策依据.

Aiming at the difficult problem of water accumulation in goaf of coal seam roof threatening the safe stoping of working faces,this research takes the 5108 working face overlying 2#coal seam goaf of Yushupo Coal Industry in Ningwu,Shanxi Province as the research object,it proposes to adopt mine transient electromagnetic method(TEM)to conduct drainage water engineering dynamic monitoring.103 measuring points are set up in the inlet and return air crossheadings and cutting holes of the 5108 working face,by quantitatively comparing the detection data before and after drainage water,combined with drilling verification and hydrogeological data,the drainage effect of water accumulation in the goaf is systematically analyzed.The results show that four low resistance abnormal areas(CKJS1,CKJS3,YC1,YC2,with a positioning accuracy of±8 m)are delineated with an apparent resistivity threshold of<15 Ω·m before drainage water;After drilling verification of drainage water,the abnormality completely disappeared after 1745 m3 of water volume is drained in CKJS1 area,and the overall apparent resistivity is improved by 63%(the average value is increased from 12.8 Ω·m to 20.9 Ω·m).The drainage water engineering significantly changes the electrical property differences in the roof goaf.The mine transient electromagnetic method can achieve dynamic monitoring of the spatial distribution and drainage of water accumulation in the goaf,providing a real-time technical decision-making basis for water hazard prevention and control.

贾先德;宋昊博;金敬喆

山西宁武榆树坡煤业有限公司,山西 忻州 036700中国矿业大学资源与地球科学学院,江苏 徐州 221116中国矿业大学资源与地球科学学院,江苏 徐州 221116

天文与地球科学

矿井瞬变电磁法采空区积水区疏放水过程动态监测

mine transient electromagnetic methodgoafwater accumulation areahydrophobic processdynamic monitoring

《山东煤炭科技》 2026 (3)

175-180,6

10.3969/j.issn.1005-2801.2026.03.032

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