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矿井电法在煤层采动破坏和水害监测中的应用进展

Advances of mine electrical resistivity method applied in coal seam mining destruction and water inrush monitoring

  • 摘要: 煤层采动破坏容易引起突水事故,严重威胁了矿井的安全生产。煤矿突水事故防治集中于回采前的隐患探查,对回采过程中发育的导水通道尚缺乏行之有效的探查手段。因此,从煤矿顶、底板突水机理分析出发,对比了煤矿井下采用的多参数传感器监测、微震监测以及电法监测等监测方法,其中电法监测因其对煤岩电阻率变化较敏感,在煤层采动破坏和水害监测中得到了广泛应用。矿井电法监测最初主要被用于煤层顶、底板破坏监测,随着矿井电法监测设备的成功研制,相关学者对采动破坏过程的电场响应特征展开了深入研究,矿井电法监测逐渐向水害监测发展,并在井下现场应用中发展出了不同的观测方法。矿井电法监测数据的处理解释目前一般采用视电阻率断面图或电阻率反演成像,因受数据采集中各种干扰因素的影响成像分辨率较低。广泛应用于近地表探测的时移电阻率成像法,通过改进数据采集方式、对数据进行预处理、优化反演方法以及在反演过程中选择合适的正则化约束方法等手段,大幅提高了监测数据的成像分辨率,该方法可同样适用于煤矿井下电法监测数据的处理解释。早期的矿用电法仪器主要用于工作面水害隐患的静态探测,近年来真正意义上的矿用电法监测设备已经研制成功并进入推广应用阶段。随着新版《煤矿防治水细则》的施行,矿井电法监测迎来了新的发展机遇。然而煤矿井下施工环境复杂、观测空间有限,矿井电法用于煤层采动破坏和水害监测时尚面临着电磁干扰、一致性校正、成像方法、多解性及水害预警等问题有待解决。针对上述问题,需要进一步提高监测设备的抗干扰能力,改进数据预处理方法,采用时移电阻率成像提高解释精度,同时加强导水通道发育过程电场响应特征及电性变化与水害风险定性关系的研究,最终达到对矿井水害进行监测预警的目的。

     

    Abstract: Coal seam mining destruction might cause water inrush which threatens the safety of mine production seriously.Prevention of coal mine water inrush is mainly focused on detection of hidden dangerous geological structures before mining.Effective detection approach for water channel,which develops dynamically during mining process,is still insufficient.This paper starts from analysis of the mechanism of water inrush from roof and floor of coal mine,compares different monitoring methods used in coal mine,such as multi-parameter sensor monitoring,micro-seismic monitoring and electrical resistivity monitoring.Among those methods,electrical resistivity monitoring is widely used in coal seam mining destruction and water inrush monitoring,because of its sensitivity to resistivity changes of coal and rock mass.Mine electrical resistivity monitoring was mainly used to monitor the destruction of coal seam roof and floor at first.With the successful development of mine electrical resistivity monitoring equipment,relevant scholars have carried out in-depth research on the electric field response characteristics of mining failure process.Mine electrical monitoring gradually develops towards water hazard monitoring,and different observation methods have been developed in underground field application.Apparent resistivity profile or resistivity inversion imaging are commonly used in processing and interpretation of mine electrical resistivity monitoring data.However,the imaging resolution is low because of various interference factors in data acquisition.Time-lapse electrical resistivity tomography,which is widely used in near-surface detection,greatly improved the imaging resolution of monitoring data,by improving data acquisition methods,using data preprocessing,optimizing inversion methods and choosing appropriate regularization constraints in inversion process,etc.This method can also be applied to the processing and interpretation of underground electrical resistivity monitoring data in coal mines.Early mine electrical instruments were mainly used for static detection of water hazards in working face.In recent years,the mine electrical resistivity monitoring equipment has been developed successfully and has entered the stage of popularization and application.With the implementation of the new edition of “Detailed Rules for Coal Mine Water Prevention and Control”(2018),new opportunity for mine electrical resistivity monitoring is coming.However,the underground environment of coal mine is complex and the observation space is limited.There are still many problems to be solved when mine electrical resistivity method is used to monitor coal seam mining destruction and water inrush,such as electromagnetic noise,consistency correction,imaging method,multi-solutions,early warning of water inrush,and so on.To solve these problems,it is necessary to further enhance the anti-interference ability of monitoring equipment,improve data preprocessing method,use time-lapse electrical resistivity tomography to increase interpretation accuracy,and carry out more research on electric field response characteristics of development process of water channel and qualitative relationship between electrical change and risk of water inrush.Finally,the purpose of monitoring and early warning of mine water inrush could be achieved.

     

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