微震监测技术在矿井水害防治中的研究进展
|
摘要
微震监测技术在矿井水害防治和预测预报中,已成为不可或缺的一种技术手段,对于确保矿山安全生产发挥了重要作用。微震监测技术作为一种间接、无损、实时、连续的地球物理方法,已经被写入《煤矿防治水细则》(2018版)。首先阐述了微震监测技术在矿井水害防治中的应用原理;然后讨论了微震探查地下水强径流带、导水通道(裂隙、断层和陷落柱)、突水通道、浆液扩散过程和采空区未知水体突水的可行性及预测预报规律,通过将人工扰动(如井下钻孔放水、注浆、采掘等)过程中产生的微震事件与音频电透视、瞬变电磁、应力场、瓦斯监测、钻屑量、声电磁、渗流、岩石损伤等场理论进行多场耦合分析和相互验证,分析了对矿井水害进行主动监测和预测预报的可行性;最后对现阶段微震监测技术在矿井水害防治方面的优势和局限性进行了分析,认为科学布置监测网络,优化定位算法,准确分析煤、岩、水活动规律,实现多场耦合,研究煤岩体微震活动性前兆规律,是微震监测技术在矿井水害防治领域的应用研究趋势。
Microseism monitoring technique in predication and control on mine water disaster has become an indispensable technical means,and it plays an important role in mine safety production.Microseism monitoring technique is the geophysics method characterized by indirect,nondestructive,real-time and continual,it has been included in Detailed Rules and Regulations for Control in Coal Mine Water(2018 edition).Firstly,application principal of microseism monitoring technique for mine water disaster is analyzed;then,the feasibility and prediction regularity of the detection of groundwater runoff zones,water passages(fissure,fault and collapse column),water bursting channel,grout diffusion and goaf unknown water inrush by using microseism monitoring technique is discussed,besides that,the feasibility of monitoring and predicting mine water disaster actively is analyzed based on the multi-field coupling analysis and mutual verification by the combination of microseismic events produced in the process of artificial disturbance(such as underground drilling water,grouting,mining and so on)and the field theories(such as audio frequency electric perspective,transient electromagnetic,stress field,gas monitoring,drilling cutting,acoustic electromagnetic,seepage,rock damage,etc)is analyzed;finally,the advantages and disadvantages of microseism monitoring technique in the application of prediction and control of mine water disaster are summarized,and according to the current study results,the development tendency of the technique is studied.The results show that the main application and study of microseism monitoring technique in prediction and control in mine water disaster can be summarized as scientific arrangement of monitoring network,optimization for positioning algorithm,reliable analysis of the activity regularities of coal,rock mass and water,implementation of multi-field coupling analysis and study of the precursor regularity of microseismic activity of coal and rock mass.
Microseism monitoring technique in predication and control on mine water disaster has become an indispensable technical means,and it plays an important role in mine safety production.Microseism monitoring technique is the geophysics method characterized by indirect,nondestructive,real-time and continual,it has been included in Detailed Rules and Regulations for Control in Coal Mine Water(2018 edition).Firstly,application principal of microseism monitoring technique for mine water disaster is analyzed;then,the feasibility and prediction regularity of the detection of groundwater runoff zones,water passages(fissure,fault and collapse column),water bursting channel,grout diffusion and goaf unknown water inrush by using microseism monitoring technique is discussed,besides that,the feasibility of monitoring and predicting mine water disaster actively is analyzed based on the multi-field coupling analysis and mutual verification by the combination of microseismic events produced in the process of artificial disturbance(such as underground drilling water,grouting,mining and so on)and the field theories(such as audio frequency electric perspective,transient electromagnetic,stress field,gas monitoring,drilling cutting,acoustic electromagnetic,seepage,rock damage,etc)is analyzed;finally,the advantages and disadvantages of microseism monitoring technique in the application of prediction and control of mine water disaster are summarized,and according to the current study results,the development tendency of the technique is studied.The results show that the main application and study of microseism monitoring technique in prediction and control in mine water disaster can be summarized as scientific arrangement of monitoring network,optimization for positioning algorithm,reliable analysis of the activity regularities of coal,rock mass and water,implementation of multi-field coupling analysis and study of the precursor regularity of microseismic activity of coal and rock mass.
引文
[1]丛森,程建远,王云宏,等.煤矿微震监测技术现状与发展前景[J].中国矿业,2016(12):87-93.Cong Sen,Cheng Jianyuan,Wang Yunhong,et al.The development review of mining microseismic monitoring technology and its future outlook[J].China Mining Magazine,2016(12):87-93.
[2]戴维福里德,周先明.关于冲击地压问题的研究[J].国外采矿技术快报,1986(14):15-16.David F,Zhou Xianming.Reaserch for rock burst[J].Foreign Mining Express Information,1986(14):15-16.
[3]祝毅强.声发射(微震)技术在矿井安全与设计中的应用[J].煤炭科学技术,1986(6):57-59.Zhu Yiqiang.Application for mine safety and design based on microseismic technology[J].Coal Science and Technology,1986(6):57-59.
[4]福勒特,连志升.防止岩爆灾害的地震监测[J].国外采矿技术快报,1986(10):13-15.Vollert D,Lian Zhisheng.Seismic monitoring for preventing rock burst hazards[J].Foreign Mining Express Information,1986(10):13-15.
[5]刘力强.国外矿区测震系统[J].山西地震,1986(1):31-34.Liu Liqiang.Seismic measuring system in foreign mining areas[J].Shanxi Earthquake,1986(1):31-34.
[6]刘嘉国.电子计算机在煤矿冲击地压监测方面的应用[J].陕西煤炭技术,1987(1):17-23.Liu Jiaguo.Application of electronic computer on rock burst monitoring in coal mine[J].Shaaxi Coal Technology,1987(1):17-23.
[7]潘魁良.煤、瓦斯、岩石突出预报的微震技术[J].煤矿安全,1986(7):49-51.Pan Kuiliang.Microseismic technology of predication on coal,gas and rock burs[tJ].Safety in Coal Mines,1986(7):49-51.
[8]卡尔德,王爵鹤.冲击地压预测研究[J].国外采矿技术快报,1986(29):9-11.Calder P,Wang Juehe.Research on predication of rock burst[J].Foreign Mining Express Information,1986(29):9-11.
[9]戴维奇,周叔良.福尔肯布里奇矿的微震监测[J].国外金属矿采矿,1986(4):41-46.Davidge G R,Zhou Shuliang.Seismic monitoring in Falconbridge mine[J].Foreign Metal Mining Express Information,1986(4):41-46.
[10]科尔恩,周正濂.地震声学法在预报矿山压力显现形式中的应用[J].国外采矿技术快报,1987(23):18-21.Colne A B,Zhou Zhenglian.Application of seismic acoustics in predicting the occurrence of mine pressure[J].Foreign Mining ExpressInformation,1987(23):18-21.
[11]艾拉佩强,杨培章.矿井冲击地压的预测与预防[J].国外金属矿山,1989(10):17-20.Airapetyan,Yang Peizhang.Prediction and prevention for rock burst in mines[J].Foreign Metal Mines,1989(10):17-20.
[12]张兆平,王国民,王时浩.地声与微震系统在矿山地震研究中的应用[J].地震地磁观测与研究,1988(3):51-54.Zhang Zhaoping,Wang Guomin,Wang Shihao.Application of ground sound and microseismic system in the research of mine seismic[J].Seimological and Geomagnetic Observation and Research,1988(3):51-54.
[13]张万斌,吴耀焜,王淑坤.中国煤矿冲击地压预测和防治的研究[J].矿山压力与顶板管理,1990(1):43-46.Zhang Wanbin,Wu Yaokun,Wang Shukun.Research on prediction and prevention of rock burst in China coal mines[J].Ground Pressure and Strata Control,1990(1):43-46.
[14]柳云龙,田有,冯晅,等.微震技术与应用研究综述[J].地球物理学进展,2013,28(4):1801-1808.Liu Yunlong,Tian You,Feng Xuan,et al.Review of microseism technology and its application[J].Progress in Geophysics,2013,28(4):1801-1808.
[15]张子春.大同煤矿坚硬顶板大面积来压及其冒落特征的探讨[J].冶金安全,1977(2):23-25.Zhang Zichun.Study on large area pressure of hard roof and its falling characteristics in Datong Coal Mine[J].Metallurgical Safety,1977(2):23-25.
[16]大同地震台.利用地震方法探索煤矿塌陷的规律[J].山西地震通讯,1974(1):14-16.Datong Seismic Station.Discovery the law of coal mine collapse by using seismic method[J].Shanxi Earthquake,1974(1):14-16.
[17]王乃明.矿压的观测和预报[J].煤矿安全,1978(5):4-6.Wang Naiming.Observation and forecasting for rock burs[tJ].Safety in Coal Mines,1978(5):4-6.
[18]张兆平,关杰,张少泉,等.矿井微震与冲击地压危险评价的研究现状[J].中国地震,1988,4(2):125-126.Zhang Zhaoping,Guan Jie,Zhang Shaoquan,et al.Research status of mine microseismic and the risk assessment of rock burs[tJ].China Earthquake,1988,4(2):125-126.
[19]鲁振华,张连城.门头沟矿微震的近场监测效能评估[J].地震,1989(5):32-39.Lu Zhenhua,Zhang Liancheng.Evaluation of near-field monitoring efficiency of tremers in Mentougou mine[J].Earthquake,1989(5):32-39.
[20]刘万琴,郑治真,鲁振华,等.用微震记录监测冲击地压前的应力变化[J].中国地震,1991,7(3):82-89.Liu Wanqin,Zheng Zhizhen,Lu Zhenhua,et al.Monitoring the stress change before the rock burst by using microseismogram[J].Earthquake Research in China,1991,7(3):82-89.
[21]李树刚,成小雨,刘超,等.低透煤层采空区覆岩高位瓦斯富集区微震探测及应用[J].煤炭科学技术,2017,45(6):61-66.Li Shugang,Cheng Xiaoyu,Liu Chao,et al.Microseisms detection and application of high-level gas enrichment region in overlying strata of goaf under low-permeability coal seam[J].Coal Scienceand Technology,2017,45(6):61-66.
[22]Xu N W,Tang C A,Li L C,et al.Microseismic monitoring and stability analysis of the left bank slope in Jinping first stage hydropower station in Southwestern China[J].International Journal of Rock Mechanics and Mining Sciences,2011,48(6):950-963.
[23]张海明,董山.基于微震监测技术的深部岩爆预警和断层突水监测[J].金属矿山,2011(6):16-19.Zhang Haiming,Dong Shan.Deep rock burst warning and fault water-gushing monitoring based on seismic monitoring technology[J].Metal Mine,2011(6):16-19.
[24]张天军,宋爽,刘超,等.高河矿地面水力压裂裂缝监测及其识别方法[J].煤炭技术,2015,34(4):185-187.Zhang Tianjun,Song Shuang,Liu Chao,et al.Ground hydraulic fracture crack's monitoring and identification methods in Gaohe Mine[J].Coal Technology,2015,34(4):185-187.
[25]周东平,李栋.煤矿井下水力压裂裂缝监测技术研究[J].煤炭技术,2017,36(11):151-154.Zhou Dongping,Li Dong.Study on monitoring technology of hydraulic fracturing crack in coal mine[J].Coal Technology,2017,36(11):151-154.
[26]张兴民,于克君,席京德,等.微地震技术在煤矿“两带”监测领域的研究与应用[J].煤炭学报,2000,25(6):566-570.Zhang Xingmin,Yu Kejun,Xi Jingde,et al.The research and application of microseismic technology in mine fractured and caving zones monitoring[J].Journal of China Coal Society,2000,25(6):566-570.
[27]杨天鸿,唐春安,谭志宏,等.岩体破坏突水模型研究现状及突水预测预报研究发展趋势[J].岩石力学与工程学报,2007,26(2):268-277.Yang Tianhong,Tang Chunan,Tan Zhihong,et al.State of the art of inrush models in rock mass failure and developing trend for prediction and forecast of groundwater inrush[J].Chinese Journal of Rock Mechanics and Engineering,2007,26(2):268-277.
[28]刘超,唐春安,张省军,等.微震监测系统在张马屯帷幕区域的应用研究[J].采矿与安全工程学报,2009,26(3):349-353.Liu Chao,Tang Chunan,Zhang Shengjun,et al.Application of microseismic monitoring system in Zhangmatun curtain region[J].Journal of Mining and Safety Engineering,2009,26(3):349-353.
[29]郭献章.微震监测技术在济南张马屯铁矿的应用[D].沈阳:东北大学,2008.Guo Xianzhang.The Application of Microseismic Monitoring Technique in Jinan Zhangmatun Iron Mine[D].Shenyang:Northeastern University,2008.
[30]李锋.济钢张马屯铁矿大帷幕突水监测及应力场分析[D].沈阳:东北大学,2008.Li Feng.Groundwater Inrush Monitoring and Stress Field Analysis for Great Underground Curtain of Jigang Zhangmatun Iron Mine[D].Shenyang:Northeastern University,2008.
[31]于承峰.基于微震监测技术的注浆帷幕区稳定性研究[D].沈阳:东北大学,2008.Yu Chengfeng.Study on Water Barrier Area Stability Based on Microseismic Monitoring Technique[D].Shenyang:Northeastern University,2008.
[32]姜福兴,叶根喜,王存文,等.高精度微震监测技术在煤矿突水监测中的应用[J].岩石力学与工程学报,2008,27(9):1932-1938.Jiang Fuxing,Ye Genxi,Wang Cunwen,et al.Application of highprecision microseismic monitoring technique to water inrush monitoring in coal mine[J].Chinese Journal of Rock Mechanics and Engineering,2008,27(9):1932-1938.
[33]姜福兴,刘伟建,叶根喜,等.构造活化的微震监测与数值模拟耦合研究[J].岩石力学与工程学报,2010,29(S2):3590-3597.Jiang Fuxing,Liu Weijian,Ye Genxi,et al.Coupling study of microseismic monitoring and numerical simulation for tectonic activation[J].Chinese Journal of Rock Mechanics and Engineering,2010,29(S2):3590-3597.
[34]孙建,王连国,唐芙蓉,等.倾斜煤层底板破坏特征的微震监测[J].岩土力学,2011,32(5):1589-1595.Sun Jian,Wang Lianguo,Tang Furong,et al.Microseismic monitoring failure characteristics of inclined coal seam floor[J].Rock and Soil Mechanics,2011,32(5):1589-1595.
[35]窦林名,何江,巩思园,等.采空区突水动力灾害的微震监测案例研究[J].中国矿业大学学报,2012,41(1):20-25.Dou Linming,He Jiang,Gong Siyuan,et al.A case study of microseismic monitoring:goaf water-inrush dynamic hazards[J].Journal of China University of Mining and Technology,2012,41(1):20-25.
[36]胡新宇.采场底板隐伏断层活化及突水机理研究[D].徐州:中国矿业大学,2015.Hu Xinyu.Study on Mechanism of Fault Activation and Water-inrush Through Insidious Fault in Mining Floor[D].Xuzhou:China University of Mining and Technology,2015.
[37]吕鹏飞,陈学华,宋卫华,等.基于微震监测的采动工程效应及矿震孕灾机理[J].地球物理学进展,2017,32(3):1399-1404.Lv Pengfei,Chen Xuehua,Song Weihua,et al.Mining-induced engineering effects base on microseismic monitoring and disaster-pregnant mechanism of shock bump[J].Progress in Geophysics,2017,32(3):1399-1404.
[38]刘毅.基于井-地联合微震监测的顶板裂缝发育高度研究[J].煤炭技术,2018,37(1):119-122.Liu Yi.Study on development height of roof fracture based on well and ground microseismic monitoring technology[J].Coal Technology,2018,37(1):119-122.
[39]赵麦来,王飞,王尧.突水微震监测预警技术在演马庄煤矿的应用[J].中州煤炭,2012(12):100-104.Zhao Mailai,Wang Fei,Wang Yao.Application of microseismic monitoring warning technology of water inrush in Yanmazhuang Coal Mine[J].Zhongzhou Coal,2012(12):100-104.
[40]吕进国,姜耀东,赵毅鑫,等.基于稳健模拟退火-单纯形混合算法的微震定位研究[J].岩土力学,2013,34(8):2195-2203.Lv Jinguo,Jiang Yaodong,Zhao Yixin,et al.Study of microseismic positioning based on steady simulated annealing-simplex hybird algorithm[J].Rock and Soil Mechanics,2013,34(8):2195-2203.
[41]柴金飞,金爱兵,高永涛,等.基于矩张量反演的矿山突水孕育过程[J].工程科学学报,2015,37(3):267-274.Chai Jinfei,Jin Aibing,Gao Yongtao,et al.Water inrush inoculation process in mines based on moment tensor inversion[J].ChineseJournal of Engineering,2015,37(3):267-274.
[42]刘玉春,赵扬锋,张超,等.含水煤岩单轴压缩微震信号特征试验研究[J].中国安全生产科学技术,2017,13(2):51-55.Liu Yuchun,Zhao Yangfeng,Zhang Chao,et al.Experimental research on microseismic signal characteristics of moisture-containing coal and rock in uniaxial compression[J].Journal of Safety Science and Technology,2017,13(2):51-55.
[43]侯玮,霍海鹰,田端信,等.基于微震监测的煤矿防治水预测方法[J].煤矿安全,2013,44(9):143-145.Hou Wei,Huo Haiying,Tian Duanxin,et al.The prediction method of mine water prevention and control based on microseismic monitoring[J].Safety in Coal Mines,2013,44(9):143-145.
[44]刘超,唐春安,李连崇,等.基于背景应力场与微震活动性的注浆帷幕突水危险性评价[J].岩石力学与工程学报,2009,28(2):366-372.Liu Chao,Tang Chunan,Li Lianchong,et al.Analysis of probability of water inrush from grout curtain based on background stress field and microseismicity[J].Chinese Journal of Rock Mechanics and Engineering,2009,28(2):366-372.
[45]贾靖.微震监测技术在煤矿防治水中的应用研究[J].煤炭与化工,2017,40(6):35-36.Jia Jing.Application research on microseismic monitoring technology in coal mine water contro[lJ].China Coal Industry,2017,40(6):35-36.
[46]刘建功,啜晓宇,李玉宝,等.矿井水害微震监测预警理论与技术研究[M].北京:煤炭工业出版社,2016.Liu Jiangong,Chuai Xiaoyu,Li Yubao,et al.Research on Theory and Technology of Microseismic Monitoring and Warning of in Mine Water Hazards[M].Beijing:China Coal Industry Publishing House,2016.
[47]李书奎,张连福,张少峰.微震监测技术在煤层底板突水防治中的应用[J].煤矿开采,2011,16(5):94-96.Li Shukui,Zhang Lianfu,Zhang Shaofeng.Application of microseismic monitoring technology in floor water-burst prevention[J].Coal Mining Technology,2011,16(5):94-96.
[48]闫宪磊,陈学华,闫宪洋.综放工作面过断层期间微震规律分析[J].煤炭学报,2011,36(S1):83-87.Yan Xianlei,Chen Xuehua,Yan Xianyang.Analysis on microseismic law when fully-mechanized coalface passed through fault[J].Journal of China Coal Society,2011,36(S1):83-87.
[49]魏廷双.张集煤矿Fs866导水断层注浆治理及微震监测断层活化技术探讨[J].北京工业职业技术学院学报,2016,15(3):110-115.Wei Tingshuang.Fs866 water conductive fault grouting and microseismic monitoring technology of fault activation in Zhangji Coal Mine[J].Journal of Beijing Polytechnic College,2016,15(3):110-115.
[50]郭晓强,窦林名,陆菜平,等.采动诱发断层活化的微震活动规律研究[J].煤矿安全,2011,42(1):26-30.Guo Xiaoqiang,Dou Linming,Lu Caiping,et al.Research on the microseismic activity of fault reaction induced by coal mining[J].Safety in Coal Mines,2011,42(1):26-30.
[51]程关文.煤矿突水的微破裂前兆信息微震监测技术研究[D].大连:大连理工大学,2017.Cheng Guanwen.Study on Microseismic Monitoring Technique for Micro-fracture Precursor Information of Water Inrush[D].Dalian:Dalian University of Technology,2017.
[52]许进鹏,张福成,桂辉,等.采动断层活化导水特征分析与实验研究[J].中国矿业大学学报,2012,41(3):415-419.Xu Jinpeng,Zhang Fucheng,Gui Hui,et al.Characteristics and experimental study of water conduction caused by fault activation due to mining[J].Journal of China University of Mining and Technology,2012,41(3):415-419.
[53]李文光,冀东,赵旭.基于微震监测技术的断层突水预警预测研究[J].黄金,2013,34(10):46-49.Li Wenguang,Ji Dong,Zhao Xu.Prediction research of fault water bursting based on seismic monitoring technology[J].Gold,2013,34(10):46-49.
[54]Ren Y F.Study on monitoring technology of the overlying strata spatial structures’failure in shallow seam long wall face[J].Procedia Engineering,2011,26:928-933.
[55]余国锋,薛俊华.微震监测技术在煤矿动力灾害防治中的应用[J].安徽科技,2010(5):43-44.Yu Guofeng,Xue Junhua.Application of microseismic monitoring technology in prevetion and control of dynamic hazards in coal mine[J].Anhui Science and Technology,2010(5):43-44.
[56]汪华君,姜福兴,成云海,等.覆岩导水裂隙带高度的微地震(MS)监测研究[J].煤炭工程,2006(3):74-76.Wang Huajun,Jiang Fuxing,Cheng Yunhai,et al.Study on microseismic monitoring of height for overburden water fracture zone[J].Coal Engineering,2006(3):74-76.
[57]李振华,徐高明,李见波.我国陷落柱突水问题的研究现状与展望[J].中国矿业,2009(4):107-109.Li Zhenhua,Xu Gaoming,Li Jianbo.Research status and outlook of water-inrush from collapse column in China[J].China Mining Magazine,2009(4):107-109.
[58]孙建,王连国.基于微震信号突变分析的底板断层突水预测[J].煤炭学报,2013,38(8):1404-1410.Sun Jian,Wang Lianguo.Floor fault water-inrush prediction based on catastrophe analysis of micro-seismic signals[J].Journal of China Coal Society,2013,38(8):1404-1410.
[59]程爱平.底板采动破坏深度微震实时获取与动态预测及应用研究[D].北京:北京科技大学,2015.Cheng Aiping.Microseismic Real-time Acquisition and Dynamic Forecast and Application Research of floor Mining-induced Failure Depth[D].Beijing:University of Science and Technology Beijing,2015.
[60]程爱平,高永涛,梁兴旺,等.煤矿底板潜在突水危险区微震识别研究[J].岩土工程学报,2014,36(9):1727-1732.Cheng Aiping,Gao Yongtao,Liang Xingwang,et al.Identification of potential water inrush areas in coal floor by using microseismic monitoring technique[J].Chinese Journal of Geotechnical Engineering,2014,36(9):1727-1732.
[61]王苏健,王悦,陈通.煤矿底板突水防治微震监测系统的建立及应用[C]//陕西省煤炭学会2016年学术年会论文集.乌鲁木齐:陕西省煤炭学会,2016:33-39.Wang Sujian,Wang Yue,Chen Tong.Establishment and application of microseismic monitoring system for prevention and control of floor water inrush in coal mine[C]//Proceedings of 2016 Academic Conference of Shaanxi Coal Society.Urumchi:Shaanxi Coal Society,2016:33-39.
[62]任浩洋.大采高综放面底板破坏深度的高精度微震监测研究[J].煤炭与化工,2017,40(9):1-3.Ren Haoyang.Study on high precision microseimic monitoring of bottom failure depth of fully mechanized top coal caving mining face[J].Coal and Chemical Industry,2017,40(9):1-3.
[63]孙运江,左建平,李玉宝,等.邢东矿深部带压开采导水裂隙带微震监测及突水机制分析[J].岩土力学,2017,38(8):2335-2342.Sun Yunjiang,Zuo Jianping,Li Yubao,et al.Microseismic monitoring on fractured zone and water inrush mechanism analysis of deep mining above aquifer in Xindong Coal Mine[J].Rock and Soil Mechanics,2017,38(8):2335-2342.
[64]李铁,纪洪广.矿井不明水体突出过程的微震辨识技术[J].岩石力学与工程学报,2010,29(1):134-139.Li Tie,Ji Hongguang.Identification of water inrush process of unknown water body using microseismic monitoring technique[J].Chinese Journal of Rock Mechanics and Engineering,2010,29(1):134-139.
[65]白越.梧桐庄煤矿水情预测的微震监测技术研究[C]//第三届全国水工岩石力学学术会议论文集.上海:中国岩石力学与工程学会,2010:124-128.Bai Yue.Study on microseismic monitoring technology of water predication in Wutongzhuang coal mine[C]//Proceedings of The Third Academic conference of National Hydraulic Rock Mechanics.Shanghai:Chinese Society for Rock Mechanics and Engineering,2010:124-128.
[66]陆银龙,王连国.含断层煤层底板损伤破坏演化数值模拟及微震监测研究[J].采矿与安全工程学报,2013,30(1):38-44.Lu Yinlong,Wang Lianguo.Modeling and microseismic monitoring of damage and failure evolution of faulty coal seam floor[J].Journal of Mining and Safety Engineering,2013,30(1):38-44.
[67]刘超,吴顺川,程爱平,等.采动条件下底板潜在导水通道形成的微震监测与数值模拟[J].北京科技大学学报,2014,36(9):1129-1135.Liu Chao,Wu Shunchuan,Cheng Aiping,et al.Microseismic monitoring and numerical simulation of the formation of water inrush pathway caused by coal mining[J].Journal of University of Science and Technology Beijing,2014,36(9):1129-1135.
[68]叶根喜,姜福兴,郭延华,等.煤矿深部采场爆破地震波传播规律的微震原位试验研究[J].岩石力学与工程学报,2008,27(5):1053-1058.Ye Genxi,Jiang Fuxing,Guo Yanhua,et al.Experimental research on seismic wave attenuation by field microseismic monitoring in a deep coal mine[J].Chinese Journal of Rock Mechanics Engineering,2008,27(5):1053-1058.
[69]段建华,汤红伟,王云宏.基于微震和瞬变电磁法的煤层气井水力压裂监测技术[J].煤炭科学技术,2018,46(6):160-166.Duan Jianhua,Tang Hongwei,Wang Yunhong.Detection technology of hydraulic fracturing in coalbed methane well based on micro-seismic and transient electromagnetic method[J].Coal Science and Technology,2018,46(6):160-166.
[70]姜福兴,王存文,杨淑华,等.冲击地压及煤与瓦斯突出和透水的微震监测技术[J].煤炭科学技术,2007,35(1):26-28.Jiang Fuxing,Wang Cunwen,Yang Shuhua,et al.Microseismic monitoring and measuring technology for pumping presuure,coal and gas outburst and water inrush[J].Coal Science and Technology,2007,35(1):26-28.
[71]王悦,王苏健,陈通.煤矿突水预测方法与微震监测技术[C]//中国地质学会2015年学术年会论文集.西安:中国地质学会,2015:211-212.Wang Yue,Wang Sujian,Chen Tong.Water inrush predication methods and microseismic monitoring technology in coal mines[C]//Proceedings of 2015 Annual Conference of Geological Society of China.Xi'an:Geological Society of China,2015:211-212.
[2]戴维福里德,周先明.关于冲击地压问题的研究[J].国外采矿技术快报,1986(14):15-16.David F,Zhou Xianming.Reaserch for rock burst[J].Foreign Mining Express Information,1986(14):15-16.
[3]祝毅强.声发射(微震)技术在矿井安全与设计中的应用[J].煤炭科学技术,1986(6):57-59.Zhu Yiqiang.Application for mine safety and design based on microseismic technology[J].Coal Science and Technology,1986(6):57-59.
[4]福勒特,连志升.防止岩爆灾害的地震监测[J].国外采矿技术快报,1986(10):13-15.Vollert D,Lian Zhisheng.Seismic monitoring for preventing rock burst hazards[J].Foreign Mining Express Information,1986(10):13-15.
[5]刘力强.国外矿区测震系统[J].山西地震,1986(1):31-34.Liu Liqiang.Seismic measuring system in foreign mining areas[J].Shanxi Earthquake,1986(1):31-34.
[6]刘嘉国.电子计算机在煤矿冲击地压监测方面的应用[J].陕西煤炭技术,1987(1):17-23.Liu Jiaguo.Application of electronic computer on rock burst monitoring in coal mine[J].Shaaxi Coal Technology,1987(1):17-23.
[7]潘魁良.煤、瓦斯、岩石突出预报的微震技术[J].煤矿安全,1986(7):49-51.Pan Kuiliang.Microseismic technology of predication on coal,gas and rock burs[tJ].Safety in Coal Mines,1986(7):49-51.
[8]卡尔德,王爵鹤.冲击地压预测研究[J].国外采矿技术快报,1986(29):9-11.Calder P,Wang Juehe.Research on predication of rock burst[J].Foreign Mining Express Information,1986(29):9-11.
[9]戴维奇,周叔良.福尔肯布里奇矿的微震监测[J].国外金属矿采矿,1986(4):41-46.Davidge G R,Zhou Shuliang.Seismic monitoring in Falconbridge mine[J].Foreign Metal Mining Express Information,1986(4):41-46.
[10]科尔恩,周正濂.地震声学法在预报矿山压力显现形式中的应用[J].国外采矿技术快报,1987(23):18-21.Colne A B,Zhou Zhenglian.Application of seismic acoustics in predicting the occurrence of mine pressure[J].Foreign Mining ExpressInformation,1987(23):18-21.
[11]艾拉佩强,杨培章.矿井冲击地压的预测与预防[J].国外金属矿山,1989(10):17-20.Airapetyan,Yang Peizhang.Prediction and prevention for rock burst in mines[J].Foreign Metal Mines,1989(10):17-20.
[12]张兆平,王国民,王时浩.地声与微震系统在矿山地震研究中的应用[J].地震地磁观测与研究,1988(3):51-54.Zhang Zhaoping,Wang Guomin,Wang Shihao.Application of ground sound and microseismic system in the research of mine seismic[J].Seimological and Geomagnetic Observation and Research,1988(3):51-54.
[13]张万斌,吴耀焜,王淑坤.中国煤矿冲击地压预测和防治的研究[J].矿山压力与顶板管理,1990(1):43-46.Zhang Wanbin,Wu Yaokun,Wang Shukun.Research on prediction and prevention of rock burst in China coal mines[J].Ground Pressure and Strata Control,1990(1):43-46.
[14]柳云龙,田有,冯晅,等.微震技术与应用研究综述[J].地球物理学进展,2013,28(4):1801-1808.Liu Yunlong,Tian You,Feng Xuan,et al.Review of microseism technology and its application[J].Progress in Geophysics,2013,28(4):1801-1808.
[15]张子春.大同煤矿坚硬顶板大面积来压及其冒落特征的探讨[J].冶金安全,1977(2):23-25.Zhang Zichun.Study on large area pressure of hard roof and its falling characteristics in Datong Coal Mine[J].Metallurgical Safety,1977(2):23-25.
[16]大同地震台.利用地震方法探索煤矿塌陷的规律[J].山西地震通讯,1974(1):14-16.Datong Seismic Station.Discovery the law of coal mine collapse by using seismic method[J].Shanxi Earthquake,1974(1):14-16.
[17]王乃明.矿压的观测和预报[J].煤矿安全,1978(5):4-6.Wang Naiming.Observation and forecasting for rock burs[tJ].Safety in Coal Mines,1978(5):4-6.
[18]张兆平,关杰,张少泉,等.矿井微震与冲击地压危险评价的研究现状[J].中国地震,1988,4(2):125-126.Zhang Zhaoping,Guan Jie,Zhang Shaoquan,et al.Research status of mine microseismic and the risk assessment of rock burs[tJ].China Earthquake,1988,4(2):125-126.
[19]鲁振华,张连城.门头沟矿微震的近场监测效能评估[J].地震,1989(5):32-39.Lu Zhenhua,Zhang Liancheng.Evaluation of near-field monitoring efficiency of tremers in Mentougou mine[J].Earthquake,1989(5):32-39.
[20]刘万琴,郑治真,鲁振华,等.用微震记录监测冲击地压前的应力变化[J].中国地震,1991,7(3):82-89.Liu Wanqin,Zheng Zhizhen,Lu Zhenhua,et al.Monitoring the stress change before the rock burst by using microseismogram[J].Earthquake Research in China,1991,7(3):82-89.
[21]李树刚,成小雨,刘超,等.低透煤层采空区覆岩高位瓦斯富集区微震探测及应用[J].煤炭科学技术,2017,45(6):61-66.Li Shugang,Cheng Xiaoyu,Liu Chao,et al.Microseisms detection and application of high-level gas enrichment region in overlying strata of goaf under low-permeability coal seam[J].Coal Scienceand Technology,2017,45(6):61-66.
[22]Xu N W,Tang C A,Li L C,et al.Microseismic monitoring and stability analysis of the left bank slope in Jinping first stage hydropower station in Southwestern China[J].International Journal of Rock Mechanics and Mining Sciences,2011,48(6):950-963.
[23]张海明,董山.基于微震监测技术的深部岩爆预警和断层突水监测[J].金属矿山,2011(6):16-19.Zhang Haiming,Dong Shan.Deep rock burst warning and fault water-gushing monitoring based on seismic monitoring technology[J].Metal Mine,2011(6):16-19.
[24]张天军,宋爽,刘超,等.高河矿地面水力压裂裂缝监测及其识别方法[J].煤炭技术,2015,34(4):185-187.Zhang Tianjun,Song Shuang,Liu Chao,et al.Ground hydraulic fracture crack's monitoring and identification methods in Gaohe Mine[J].Coal Technology,2015,34(4):185-187.
[25]周东平,李栋.煤矿井下水力压裂裂缝监测技术研究[J].煤炭技术,2017,36(11):151-154.Zhou Dongping,Li Dong.Study on monitoring technology of hydraulic fracturing crack in coal mine[J].Coal Technology,2017,36(11):151-154.
[26]张兴民,于克君,席京德,等.微地震技术在煤矿“两带”监测领域的研究与应用[J].煤炭学报,2000,25(6):566-570.Zhang Xingmin,Yu Kejun,Xi Jingde,et al.The research and application of microseismic technology in mine fractured and caving zones monitoring[J].Journal of China Coal Society,2000,25(6):566-570.
[27]杨天鸿,唐春安,谭志宏,等.岩体破坏突水模型研究现状及突水预测预报研究发展趋势[J].岩石力学与工程学报,2007,26(2):268-277.Yang Tianhong,Tang Chunan,Tan Zhihong,et al.State of the art of inrush models in rock mass failure and developing trend for prediction and forecast of groundwater inrush[J].Chinese Journal of Rock Mechanics and Engineering,2007,26(2):268-277.
[28]刘超,唐春安,张省军,等.微震监测系统在张马屯帷幕区域的应用研究[J].采矿与安全工程学报,2009,26(3):349-353.Liu Chao,Tang Chunan,Zhang Shengjun,et al.Application of microseismic monitoring system in Zhangmatun curtain region[J].Journal of Mining and Safety Engineering,2009,26(3):349-353.
[29]郭献章.微震监测技术在济南张马屯铁矿的应用[D].沈阳:东北大学,2008.Guo Xianzhang.The Application of Microseismic Monitoring Technique in Jinan Zhangmatun Iron Mine[D].Shenyang:Northeastern University,2008.
[30]李锋.济钢张马屯铁矿大帷幕突水监测及应力场分析[D].沈阳:东北大学,2008.Li Feng.Groundwater Inrush Monitoring and Stress Field Analysis for Great Underground Curtain of Jigang Zhangmatun Iron Mine[D].Shenyang:Northeastern University,2008.
[31]于承峰.基于微震监测技术的注浆帷幕区稳定性研究[D].沈阳:东北大学,2008.Yu Chengfeng.Study on Water Barrier Area Stability Based on Microseismic Monitoring Technique[D].Shenyang:Northeastern University,2008.
[32]姜福兴,叶根喜,王存文,等.高精度微震监测技术在煤矿突水监测中的应用[J].岩石力学与工程学报,2008,27(9):1932-1938.Jiang Fuxing,Ye Genxi,Wang Cunwen,et al.Application of highprecision microseismic monitoring technique to water inrush monitoring in coal mine[J].Chinese Journal of Rock Mechanics and Engineering,2008,27(9):1932-1938.
[33]姜福兴,刘伟建,叶根喜,等.构造活化的微震监测与数值模拟耦合研究[J].岩石力学与工程学报,2010,29(S2):3590-3597.Jiang Fuxing,Liu Weijian,Ye Genxi,et al.Coupling study of microseismic monitoring and numerical simulation for tectonic activation[J].Chinese Journal of Rock Mechanics and Engineering,2010,29(S2):3590-3597.
[34]孙建,王连国,唐芙蓉,等.倾斜煤层底板破坏特征的微震监测[J].岩土力学,2011,32(5):1589-1595.Sun Jian,Wang Lianguo,Tang Furong,et al.Microseismic monitoring failure characteristics of inclined coal seam floor[J].Rock and Soil Mechanics,2011,32(5):1589-1595.
[35]窦林名,何江,巩思园,等.采空区突水动力灾害的微震监测案例研究[J].中国矿业大学学报,2012,41(1):20-25.Dou Linming,He Jiang,Gong Siyuan,et al.A case study of microseismic monitoring:goaf water-inrush dynamic hazards[J].Journal of China University of Mining and Technology,2012,41(1):20-25.
[36]胡新宇.采场底板隐伏断层活化及突水机理研究[D].徐州:中国矿业大学,2015.Hu Xinyu.Study on Mechanism of Fault Activation and Water-inrush Through Insidious Fault in Mining Floor[D].Xuzhou:China University of Mining and Technology,2015.
[37]吕鹏飞,陈学华,宋卫华,等.基于微震监测的采动工程效应及矿震孕灾机理[J].地球物理学进展,2017,32(3):1399-1404.Lv Pengfei,Chen Xuehua,Song Weihua,et al.Mining-induced engineering effects base on microseismic monitoring and disaster-pregnant mechanism of shock bump[J].Progress in Geophysics,2017,32(3):1399-1404.
[38]刘毅.基于井-地联合微震监测的顶板裂缝发育高度研究[J].煤炭技术,2018,37(1):119-122.Liu Yi.Study on development height of roof fracture based on well and ground microseismic monitoring technology[J].Coal Technology,2018,37(1):119-122.
[39]赵麦来,王飞,王尧.突水微震监测预警技术在演马庄煤矿的应用[J].中州煤炭,2012(12):100-104.Zhao Mailai,Wang Fei,Wang Yao.Application of microseismic monitoring warning technology of water inrush in Yanmazhuang Coal Mine[J].Zhongzhou Coal,2012(12):100-104.
[40]吕进国,姜耀东,赵毅鑫,等.基于稳健模拟退火-单纯形混合算法的微震定位研究[J].岩土力学,2013,34(8):2195-2203.Lv Jinguo,Jiang Yaodong,Zhao Yixin,et al.Study of microseismic positioning based on steady simulated annealing-simplex hybird algorithm[J].Rock and Soil Mechanics,2013,34(8):2195-2203.
[41]柴金飞,金爱兵,高永涛,等.基于矩张量反演的矿山突水孕育过程[J].工程科学学报,2015,37(3):267-274.Chai Jinfei,Jin Aibing,Gao Yongtao,et al.Water inrush inoculation process in mines based on moment tensor inversion[J].ChineseJournal of Engineering,2015,37(3):267-274.
[42]刘玉春,赵扬锋,张超,等.含水煤岩单轴压缩微震信号特征试验研究[J].中国安全生产科学技术,2017,13(2):51-55.Liu Yuchun,Zhao Yangfeng,Zhang Chao,et al.Experimental research on microseismic signal characteristics of moisture-containing coal and rock in uniaxial compression[J].Journal of Safety Science and Technology,2017,13(2):51-55.
[43]侯玮,霍海鹰,田端信,等.基于微震监测的煤矿防治水预测方法[J].煤矿安全,2013,44(9):143-145.Hou Wei,Huo Haiying,Tian Duanxin,et al.The prediction method of mine water prevention and control based on microseismic monitoring[J].Safety in Coal Mines,2013,44(9):143-145.
[44]刘超,唐春安,李连崇,等.基于背景应力场与微震活动性的注浆帷幕突水危险性评价[J].岩石力学与工程学报,2009,28(2):366-372.Liu Chao,Tang Chunan,Li Lianchong,et al.Analysis of probability of water inrush from grout curtain based on background stress field and microseismicity[J].Chinese Journal of Rock Mechanics and Engineering,2009,28(2):366-372.
[45]贾靖.微震监测技术在煤矿防治水中的应用研究[J].煤炭与化工,2017,40(6):35-36.Jia Jing.Application research on microseismic monitoring technology in coal mine water contro[lJ].China Coal Industry,2017,40(6):35-36.
[46]刘建功,啜晓宇,李玉宝,等.矿井水害微震监测预警理论与技术研究[M].北京:煤炭工业出版社,2016.Liu Jiangong,Chuai Xiaoyu,Li Yubao,et al.Research on Theory and Technology of Microseismic Monitoring and Warning of in Mine Water Hazards[M].Beijing:China Coal Industry Publishing House,2016.
[47]李书奎,张连福,张少峰.微震监测技术在煤层底板突水防治中的应用[J].煤矿开采,2011,16(5):94-96.Li Shukui,Zhang Lianfu,Zhang Shaofeng.Application of microseismic monitoring technology in floor water-burst prevention[J].Coal Mining Technology,2011,16(5):94-96.
[48]闫宪磊,陈学华,闫宪洋.综放工作面过断层期间微震规律分析[J].煤炭学报,2011,36(S1):83-87.Yan Xianlei,Chen Xuehua,Yan Xianyang.Analysis on microseismic law when fully-mechanized coalface passed through fault[J].Journal of China Coal Society,2011,36(S1):83-87.
[49]魏廷双.张集煤矿Fs866导水断层注浆治理及微震监测断层活化技术探讨[J].北京工业职业技术学院学报,2016,15(3):110-115.Wei Tingshuang.Fs866 water conductive fault grouting and microseismic monitoring technology of fault activation in Zhangji Coal Mine[J].Journal of Beijing Polytechnic College,2016,15(3):110-115.
[50]郭晓强,窦林名,陆菜平,等.采动诱发断层活化的微震活动规律研究[J].煤矿安全,2011,42(1):26-30.Guo Xiaoqiang,Dou Linming,Lu Caiping,et al.Research on the microseismic activity of fault reaction induced by coal mining[J].Safety in Coal Mines,2011,42(1):26-30.
[51]程关文.煤矿突水的微破裂前兆信息微震监测技术研究[D].大连:大连理工大学,2017.Cheng Guanwen.Study on Microseismic Monitoring Technique for Micro-fracture Precursor Information of Water Inrush[D].Dalian:Dalian University of Technology,2017.
[52]许进鹏,张福成,桂辉,等.采动断层活化导水特征分析与实验研究[J].中国矿业大学学报,2012,41(3):415-419.Xu Jinpeng,Zhang Fucheng,Gui Hui,et al.Characteristics and experimental study of water conduction caused by fault activation due to mining[J].Journal of China University of Mining and Technology,2012,41(3):415-419.
[53]李文光,冀东,赵旭.基于微震监测技术的断层突水预警预测研究[J].黄金,2013,34(10):46-49.Li Wenguang,Ji Dong,Zhao Xu.Prediction research of fault water bursting based on seismic monitoring technology[J].Gold,2013,34(10):46-49.
[54]Ren Y F.Study on monitoring technology of the overlying strata spatial structures’failure in shallow seam long wall face[J].Procedia Engineering,2011,26:928-933.
[55]余国锋,薛俊华.微震监测技术在煤矿动力灾害防治中的应用[J].安徽科技,2010(5):43-44.Yu Guofeng,Xue Junhua.Application of microseismic monitoring technology in prevetion and control of dynamic hazards in coal mine[J].Anhui Science and Technology,2010(5):43-44.
[56]汪华君,姜福兴,成云海,等.覆岩导水裂隙带高度的微地震(MS)监测研究[J].煤炭工程,2006(3):74-76.Wang Huajun,Jiang Fuxing,Cheng Yunhai,et al.Study on microseismic monitoring of height for overburden water fracture zone[J].Coal Engineering,2006(3):74-76.
[57]李振华,徐高明,李见波.我国陷落柱突水问题的研究现状与展望[J].中国矿业,2009(4):107-109.Li Zhenhua,Xu Gaoming,Li Jianbo.Research status and outlook of water-inrush from collapse column in China[J].China Mining Magazine,2009(4):107-109.
[58]孙建,王连国.基于微震信号突变分析的底板断层突水预测[J].煤炭学报,2013,38(8):1404-1410.Sun Jian,Wang Lianguo.Floor fault water-inrush prediction based on catastrophe analysis of micro-seismic signals[J].Journal of China Coal Society,2013,38(8):1404-1410.
[59]程爱平.底板采动破坏深度微震实时获取与动态预测及应用研究[D].北京:北京科技大学,2015.Cheng Aiping.Microseismic Real-time Acquisition and Dynamic Forecast and Application Research of floor Mining-induced Failure Depth[D].Beijing:University of Science and Technology Beijing,2015.
[60]程爱平,高永涛,梁兴旺,等.煤矿底板潜在突水危险区微震识别研究[J].岩土工程学报,2014,36(9):1727-1732.Cheng Aiping,Gao Yongtao,Liang Xingwang,et al.Identification of potential water inrush areas in coal floor by using microseismic monitoring technique[J].Chinese Journal of Geotechnical Engineering,2014,36(9):1727-1732.
[61]王苏健,王悦,陈通.煤矿底板突水防治微震监测系统的建立及应用[C]//陕西省煤炭学会2016年学术年会论文集.乌鲁木齐:陕西省煤炭学会,2016:33-39.Wang Sujian,Wang Yue,Chen Tong.Establishment and application of microseismic monitoring system for prevention and control of floor water inrush in coal mine[C]//Proceedings of 2016 Academic Conference of Shaanxi Coal Society.Urumchi:Shaanxi Coal Society,2016:33-39.
[62]任浩洋.大采高综放面底板破坏深度的高精度微震监测研究[J].煤炭与化工,2017,40(9):1-3.Ren Haoyang.Study on high precision microseimic monitoring of bottom failure depth of fully mechanized top coal caving mining face[J].Coal and Chemical Industry,2017,40(9):1-3.
[63]孙运江,左建平,李玉宝,等.邢东矿深部带压开采导水裂隙带微震监测及突水机制分析[J].岩土力学,2017,38(8):2335-2342.Sun Yunjiang,Zuo Jianping,Li Yubao,et al.Microseismic monitoring on fractured zone and water inrush mechanism analysis of deep mining above aquifer in Xindong Coal Mine[J].Rock and Soil Mechanics,2017,38(8):2335-2342.
[64]李铁,纪洪广.矿井不明水体突出过程的微震辨识技术[J].岩石力学与工程学报,2010,29(1):134-139.Li Tie,Ji Hongguang.Identification of water inrush process of unknown water body using microseismic monitoring technique[J].Chinese Journal of Rock Mechanics and Engineering,2010,29(1):134-139.
[65]白越.梧桐庄煤矿水情预测的微震监测技术研究[C]//第三届全国水工岩石力学学术会议论文集.上海:中国岩石力学与工程学会,2010:124-128.Bai Yue.Study on microseismic monitoring technology of water predication in Wutongzhuang coal mine[C]//Proceedings of The Third Academic conference of National Hydraulic Rock Mechanics.Shanghai:Chinese Society for Rock Mechanics and Engineering,2010:124-128.
[66]陆银龙,王连国.含断层煤层底板损伤破坏演化数值模拟及微震监测研究[J].采矿与安全工程学报,2013,30(1):38-44.Lu Yinlong,Wang Lianguo.Modeling and microseismic monitoring of damage and failure evolution of faulty coal seam floor[J].Journal of Mining and Safety Engineering,2013,30(1):38-44.
[67]刘超,吴顺川,程爱平,等.采动条件下底板潜在导水通道形成的微震监测与数值模拟[J].北京科技大学学报,2014,36(9):1129-1135.Liu Chao,Wu Shunchuan,Cheng Aiping,et al.Microseismic monitoring and numerical simulation of the formation of water inrush pathway caused by coal mining[J].Journal of University of Science and Technology Beijing,2014,36(9):1129-1135.
[68]叶根喜,姜福兴,郭延华,等.煤矿深部采场爆破地震波传播规律的微震原位试验研究[J].岩石力学与工程学报,2008,27(5):1053-1058.Ye Genxi,Jiang Fuxing,Guo Yanhua,et al.Experimental research on seismic wave attenuation by field microseismic monitoring in a deep coal mine[J].Chinese Journal of Rock Mechanics Engineering,2008,27(5):1053-1058.
[69]段建华,汤红伟,王云宏.基于微震和瞬变电磁法的煤层气井水力压裂监测技术[J].煤炭科学技术,2018,46(6):160-166.Duan Jianhua,Tang Hongwei,Wang Yunhong.Detection technology of hydraulic fracturing in coalbed methane well based on micro-seismic and transient electromagnetic method[J].Coal Science and Technology,2018,46(6):160-166.
[70]姜福兴,王存文,杨淑华,等.冲击地压及煤与瓦斯突出和透水的微震监测技术[J].煤炭科学技术,2007,35(1):26-28.Jiang Fuxing,Wang Cunwen,Yang Shuhua,et al.Microseismic monitoring and measuring technology for pumping presuure,coal and gas outburst and water inrush[J].Coal Science and Technology,2007,35(1):26-28.
[71]王悦,王苏健,陈通.煤矿突水预测方法与微震监测技术[C]//中国地质学会2015年学术年会论文集.西安:中国地质学会,2015:211-212.Wang Yue,Wang Sujian,Chen Tong.Water inrush predication methods and microseismic monitoring technology in coal mines[C]//Proceedings of 2015 Annual Conference of Geological Society of China.Xi'an:Geological Society of China,2015:211-212.