煤与瓦斯突出的物理爆炸模型及预测指标研究
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摘要
煤与瓦斯突出是由地应力、瓦斯压力、煤体结构综合作用的、严重威胁煤矿安全生产的矿井瓦斯动力现象。煤与瓦斯突出机理及预测指标研究是制定突出危险性预测和防突措施效果检验指标体系的重要理论和技术依据。论文综合采用理论分析、实验室实验、现场实测验证的方法,对煤与瓦斯突出机理、预测指标及临界值确定方法、测试仪表、工程应用进行了系统研究,形成了一套从机理——预测指标——临界值——预测仪表——工程应用的理论技术体系,提高了煤与瓦斯突出预测的可靠性和准确性。
(1)在充分分析煤与瓦斯突出要素及其作用的基础上,讨论了煤与瓦斯突出的动力来源和能量转化,在煤与瓦斯突出过程中,破坏煤体的主要动力是地应力,而煤与瓦斯突出发生的主要能量来源于瓦斯膨胀能,提出了一定量的瓦斯膨胀能是煤与瓦斯突出发生、发展的必要条件。
(2)煤与瓦斯突出的准备、发生、发展划分为3个连续过程:①受工作面附近地应力的作用,煤层卸压破坏;②积聚在煤体空隙中的瓦斯急速解吸涌出,煤体爆炸破碎;③瓦斯大量涌出,产生瓦斯煤混合流,搬运煤体,形成空气冲击波;根据弹塑性力学、空气动力学理论,详细研究了煤层卸压破坏、煤体爆炸破碎、瓦斯煤混合流运移的力学和能量条件,提出了煤与瓦斯突出的物理爆炸模型。
(3)根据煤与瓦斯突出物理爆炸模型,分析了煤与瓦斯突出的影响因素:①煤体卸压是煤与瓦斯发生的激发因素,地应力越大、煤层强度越低,卸压波速度越大,煤层容易越形成大面积快速卸压破坏,有利于瓦斯突出的发生;②煤体裂缝形成的速度越快,越有利于瓦斯气泡的破裂,形成瓦斯煤混合流;煤体强度降低,有利于瓦斯气泡的破裂,有利于突出的发生;提出了瓦斯膨胀能大于煤体移动功是瓦斯煤混合流运移的必要条件,瓦斯膨胀能应大于小型煤与瓦斯突出的煤体移动功,瓦斯膨胀能临界值为76.96 kJ/t,为煤与瓦斯突出预测指标临界值的确定提供了理论依据。
(4)根据煤与瓦斯突出的物理爆炸模型,对预测指标与瓦斯膨胀能的关系进行了分析,选取了区域突出危险性预测指标和工作面突出危险性预测指标;结合实验室试验,提出了预测指标临界值确定方法的技术路线、步骤以及可靠性评价方法,为煤与瓦斯突出预测指标及临界值研究提供了理论依据和技术方法。
(5)根据煤层瓦斯流动的达西定律,研究了钻孔瓦斯涌出速度与瓦斯压力、测试时间等因素的关系,提出了测试仪表应满足的技术条件;分析了钻孔瓦斯涌出初速度q测试仪表存在的不足,研制了WY-Ⅰ型瓦斯q值测定仪,提高了钻孔瓦斯涌出初速度q的测试精度。
(6)根据瓦斯膨胀能与预测指标的关系,提出了瓦斯解吸指标Q3 ,采用实验室试验和现场测定的方法,研究了瓦斯解吸指标Q3与瓦斯初始解吸量V1、瓦斯压力P、瓦斯含量X的关系,具有很好的相关性,可以采用瓦斯解吸指标Q3进行突出危险性预测。
(7)通过新安煤田二1煤层瓦斯地质规律及实验室实验研究,提出了区域预测方法和指标,对新安煤田二1煤层进行了区域突出危险性预测,预测结果与生产实际基本一致。
(8)通过实验室实验研究和现场专项测试,分析了工作面预测指标与瓦斯含量的关系,对预测指标的影响因素及其敏感性进行了分析,通过现场工业性试验和可靠性评价,确定了告成煤矿掘进工作面、回采工作面、孟津煤矿石门揭煤工作面突出危险性预测指标及其临界值,提高了突出危险性预测的可靠性。
Coal and gas outburst is a gas dynamics phenomenon which is affected synthetically by stress,gas pressure and the coal structure. It has a serious threat to coal mine safety production. coal and gas outburst mechanism and outburst prediction indexes research are important theoretical and technical basis of setting out outburst risk forecast and prevention measures of coal and gas outburst effect test indexes system. The article uses synthetically methods of theoretical analysis, laboratory experiment, and on-site measurement and verification to study systematically the mechanism of coal and gas outburst, fixing method of prediction indexes and critical value, testing instrumentation and engineering application, then a technical system theory from the mechanism - forecast indexes- critical value - prediction instrument– to application of project system is formed, which improves the reliability and accuracy of coal and gas outburst prediction.
Basing on the full analysis of coal and gas outburst factors and its function, the article discussed the power sources and energy conversion of coal and gas outburst. in the process of coal and gas outburst, stress is the main force to destroy the coal , while the main energy of coal and gas outburst comes from gas expansion energy, so a certain amount of gas expansion energy is the necessary condition which coal and gas outburst happen and develop.
The preparation occur and development of coal and gas outburst can be divided into three continuous processes:①Coal is pressure relief destructed by the aiction of stress nearly the work face;②The gas that accumulated in the coal gap poured out Sharply and coal explosion shattered;③a large amount of gas poured out and coal and gas mixed flow was produced, which transits coal and formats air Shockwave;according to plastic and elastic mechanics, aerodynamics theory, the article studied the coal seam pressure relief destruction, coal explosive fragmentation, the mechanical and energy conditions of gas and coal mixture flow in details, and put forward the physical explosion model of coal and gas outburst.
According to the physical explosion model of coal and gas outburst, analyzed the impact factors of coal and gas outburst;①C oal pressure relief is the motivating factor of coal and gas outburst occur, the greater the stress, the lower seam strength, the relief wave velocity is greater,and large-scale fast relief destruction become easier for coal. it’s favorable for the occurrence of gas outburst;②t he faster Coal cracks formed, the more favorable breakdown of gas bubbles and forming coal and mixed flow;the strength of coal reduces that is propitious to gas bubble break and the occurrence of outburst;it proposed that gas expansion energy greater than coal moving power is a necessary condition of moving mixture of coal gas flow. Gas expansion energy should be greater than small-sized coal and gas outburst moving power. the gas expansion energy critical value is 76.96 kJ/t, it provided a theoretical basis for determination the critical value of coal and gas outburst prediction indexs.
According to outburst physical explosion model of coal and gas outburst, analyzed the relationship between prediction indexs and gas expand energy,selected region risk prediction indexes and work face outburst prediction indexes. combined with laboratory testing, technical route, process of prediction index critical value determination methods and reliability evaluation method is proposed. and provided a theoretical basis and technical approach for coal and gas outburst prediction indexs and the critical value research.
According to Darcy's law of gas flow, studied the relationship of initial rate of gas emission in drilling hole q, gas pressure, test time and other factors, and put forward the technical requirements which test instrument should meet with. analyzed the shortage of test instrument of initial rate of gas emission in drilling hole q, developed WY-Ⅰtype gas q value test meter, which improves the test accuracy of initial rate of gas emission in drilling hole q.
According to the relationship of gas expansion energy and prediction indexes, put forward gas desorption index Q3 ,using laboratory tests and filed measurement methods, studied the relationships of gas desorption index Q3 ,gas initial desorption quantity V1, gas pressure P and gas content X,which are good correlation.gas desorption index Q3 can be used to predict outburst rick.
Through Xin‘an coal filedⅡ1 coal seam gas Geological rule and laboratory studying, proposed regional prediction methods and indexes,and took a regional outburst of prediction of Xi’anⅡ1 coal seam. The result is consistent with the actual production.
Through laboratory research and on-sit testing, analyzed the relationship between work face outburst prediction indexes and gas content. and also analyzed the impact factors and sensitivity of prediction indexes. Through field industrial experiment and reliability assessment, determined the Coal and gas outburst forecast prediction indexes and their critical value of Gaocheng Coal mine advancing work face, coal face and Mengjin exposing outburst seam by crosscut. and the reliability of Outburst Prediction is improved.
(1)在充分分析煤与瓦斯突出要素及其作用的基础上,讨论了煤与瓦斯突出的动力来源和能量转化,在煤与瓦斯突出过程中,破坏煤体的主要动力是地应力,而煤与瓦斯突出发生的主要能量来源于瓦斯膨胀能,提出了一定量的瓦斯膨胀能是煤与瓦斯突出发生、发展的必要条件。
(2)煤与瓦斯突出的准备、发生、发展划分为3个连续过程:①受工作面附近地应力的作用,煤层卸压破坏;②积聚在煤体空隙中的瓦斯急速解吸涌出,煤体爆炸破碎;③瓦斯大量涌出,产生瓦斯煤混合流,搬运煤体,形成空气冲击波;根据弹塑性力学、空气动力学理论,详细研究了煤层卸压破坏、煤体爆炸破碎、瓦斯煤混合流运移的力学和能量条件,提出了煤与瓦斯突出的物理爆炸模型。
(3)根据煤与瓦斯突出物理爆炸模型,分析了煤与瓦斯突出的影响因素:①煤体卸压是煤与瓦斯发生的激发因素,地应力越大、煤层强度越低,卸压波速度越大,煤层容易越形成大面积快速卸压破坏,有利于瓦斯突出的发生;②煤体裂缝形成的速度越快,越有利于瓦斯气泡的破裂,形成瓦斯煤混合流;煤体强度降低,有利于瓦斯气泡的破裂,有利于突出的发生;提出了瓦斯膨胀能大于煤体移动功是瓦斯煤混合流运移的必要条件,瓦斯膨胀能应大于小型煤与瓦斯突出的煤体移动功,瓦斯膨胀能临界值为76.96 kJ/t,为煤与瓦斯突出预测指标临界值的确定提供了理论依据。
(4)根据煤与瓦斯突出的物理爆炸模型,对预测指标与瓦斯膨胀能的关系进行了分析,选取了区域突出危险性预测指标和工作面突出危险性预测指标;结合实验室试验,提出了预测指标临界值确定方法的技术路线、步骤以及可靠性评价方法,为煤与瓦斯突出预测指标及临界值研究提供了理论依据和技术方法。
(5)根据煤层瓦斯流动的达西定律,研究了钻孔瓦斯涌出速度与瓦斯压力、测试时间等因素的关系,提出了测试仪表应满足的技术条件;分析了钻孔瓦斯涌出初速度q测试仪表存在的不足,研制了WY-Ⅰ型瓦斯q值测定仪,提高了钻孔瓦斯涌出初速度q的测试精度。
(6)根据瓦斯膨胀能与预测指标的关系,提出了瓦斯解吸指标Q3 ,采用实验室试验和现场测定的方法,研究了瓦斯解吸指标Q3与瓦斯初始解吸量V1、瓦斯压力P、瓦斯含量X的关系,具有很好的相关性,可以采用瓦斯解吸指标Q3进行突出危险性预测。
(7)通过新安煤田二1煤层瓦斯地质规律及实验室实验研究,提出了区域预测方法和指标,对新安煤田二1煤层进行了区域突出危险性预测,预测结果与生产实际基本一致。
(8)通过实验室实验研究和现场专项测试,分析了工作面预测指标与瓦斯含量的关系,对预测指标的影响因素及其敏感性进行了分析,通过现场工业性试验和可靠性评价,确定了告成煤矿掘进工作面、回采工作面、孟津煤矿石门揭煤工作面突出危险性预测指标及其临界值,提高了突出危险性预测的可靠性。
Coal and gas outburst is a gas dynamics phenomenon which is affected synthetically by stress,gas pressure and the coal structure. It has a serious threat to coal mine safety production. coal and gas outburst mechanism and outburst prediction indexes research are important theoretical and technical basis of setting out outburst risk forecast and prevention measures of coal and gas outburst effect test indexes system. The article uses synthetically methods of theoretical analysis, laboratory experiment, and on-site measurement and verification to study systematically the mechanism of coal and gas outburst, fixing method of prediction indexes and critical value, testing instrumentation and engineering application, then a technical system theory from the mechanism - forecast indexes- critical value - prediction instrument– to application of project system is formed, which improves the reliability and accuracy of coal and gas outburst prediction.
Basing on the full analysis of coal and gas outburst factors and its function, the article discussed the power sources and energy conversion of coal and gas outburst. in the process of coal and gas outburst, stress is the main force to destroy the coal , while the main energy of coal and gas outburst comes from gas expansion energy, so a certain amount of gas expansion energy is the necessary condition which coal and gas outburst happen and develop.
The preparation occur and development of coal and gas outburst can be divided into three continuous processes:①Coal is pressure relief destructed by the aiction of stress nearly the work face;②The gas that accumulated in the coal gap poured out Sharply and coal explosion shattered;③a large amount of gas poured out and coal and gas mixed flow was produced, which transits coal and formats air Shockwave;according to plastic and elastic mechanics, aerodynamics theory, the article studied the coal seam pressure relief destruction, coal explosive fragmentation, the mechanical and energy conditions of gas and coal mixture flow in details, and put forward the physical explosion model of coal and gas outburst.
According to the physical explosion model of coal and gas outburst, analyzed the impact factors of coal and gas outburst;①C oal pressure relief is the motivating factor of coal and gas outburst occur, the greater the stress, the lower seam strength, the relief wave velocity is greater,and large-scale fast relief destruction become easier for coal. it’s favorable for the occurrence of gas outburst;②t he faster Coal cracks formed, the more favorable breakdown of gas bubbles and forming coal and mixed flow;the strength of coal reduces that is propitious to gas bubble break and the occurrence of outburst;it proposed that gas expansion energy greater than coal moving power is a necessary condition of moving mixture of coal gas flow. Gas expansion energy should be greater than small-sized coal and gas outburst moving power. the gas expansion energy critical value is 76.96 kJ/t, it provided a theoretical basis for determination the critical value of coal and gas outburst prediction indexs.
According to outburst physical explosion model of coal and gas outburst, analyzed the relationship between prediction indexs and gas expand energy,selected region risk prediction indexes and work face outburst prediction indexes. combined with laboratory testing, technical route, process of prediction index critical value determination methods and reliability evaluation method is proposed. and provided a theoretical basis and technical approach for coal and gas outburst prediction indexs and the critical value research.
According to Darcy's law of gas flow, studied the relationship of initial rate of gas emission in drilling hole q, gas pressure, test time and other factors, and put forward the technical requirements which test instrument should meet with. analyzed the shortage of test instrument of initial rate of gas emission in drilling hole q, developed WY-Ⅰtype gas q value test meter, which improves the test accuracy of initial rate of gas emission in drilling hole q.
According to the relationship of gas expansion energy and prediction indexes, put forward gas desorption index Q3 ,using laboratory tests and filed measurement methods, studied the relationships of gas desorption index Q3 ,gas initial desorption quantity V1, gas pressure P and gas content X,which are good correlation.gas desorption index Q3 can be used to predict outburst rick.
Through Xin‘an coal filedⅡ1 coal seam gas Geological rule and laboratory studying, proposed regional prediction methods and indexes,and took a regional outburst of prediction of Xi’anⅡ1 coal seam. The result is consistent with the actual production.
Through laboratory research and on-sit testing, analyzed the relationship between work face outburst prediction indexes and gas content. and also analyzed the impact factors and sensitivity of prediction indexes. Through field industrial experiment and reliability assessment, determined the Coal and gas outburst forecast prediction indexes and their critical value of Gaocheng Coal mine advancing work face, coal face and Mengjin exposing outburst seam by crosscut. and the reliability of Outburst Prediction is improved.
引文
[1]于不凡.煤矿瓦斯灾害防治及利用技术手册[M].煤炭工业出版社,2005.
[2]ДокунииА.В.,АйруниА.Т.,ЭттингерИ.И.,БольшинскийМ.И.,ЗверевИ.В.,ДолговаМ.О.Борьбасвнезапнымивыбросамигазаиуглявшахтах.ВестникАНССССР,М.:1984.№12.С.44-55.
[3]国家安全生产监督管理总局.防治煤与瓦斯突出规定.2009.
[4]Инструкцияпобезопасномуведениюгорныхработнапластах,опасныхповнезапнымвыбросамугля(породы)игаза.ГосгортехнадзорРоссии.2000.
[5]ИвановБ.М.,ФейтГ.Н.,ЯновскаяМ.Ф.Механическиеифизико-химическиесвойствауглейвыбросоопасныхпластов.-М.:Наука.-1979.-195с.
[6]Ю.Н.Малышев,А.Т.Айруни,Ю.Л.Худин,М.И.Большинский.Методыпрогнозаиспособыпредотвращениявыбросовгаза,угляипород.М.:Недра,1995.
[7]МинеевС.П.,РубинскийА.А.Основныезакономерностипроявлениямощныхгазодинамическихявленийвугольныхшахтах.Науков?прац?ДонНТУ.Сер?я?Г?рничо-геолог?чна?.Вип.10(151). 2009р. 129–136.
[8]付建华,程远平.中国煤矿煤与瓦斯突出现状及防治对策[J].采矿与安全工程学报,2007,24(3):253-259.
[9]中华人民共和国安全生产行业标准.煤与瓦斯突出矿井鉴定规范.国家安全生产监督管理总局.2006.
[10]于不凡.煤和瓦斯突出机理[M].北京:煤炭工业出版社,1985.
[11]МалышевЮ.Н.,ТрубецкойК.Н.,АйруниА.Т.Фундаментальноприкладныеметодырешенияпроблемыметанаугольныхпластов.ИздательствоАкадемиигорныхнаук.Москва.-2000. -517с.
[12]王佑安等.煤矿安全手册第二篇矿井瓦斯防治[M].煤炭工业出版社.1994.
[13]俞启香.矿井瓦斯防治[M].中国矿业大学出版社.1992.
[14] [苏] B.B.霍多特.煤和瓦斯突出[M].宋士钊,王佑安译.北京:中国工业出版社,1966.
[15]何学秋,周世宁.煤和瓦斯突出机理的流变假说[J].煤矿安全, 1991, (10): 1-7.
[16]何学秋,刘明举.含瓦斯煤岩破坏电磁动力学[M].徐州:中国矿业大学出版社,1995.
[17]蒋承林,俞启香.煤与瓦斯突出的球壳失稳机理及防治技术[M].徐州:中国矿业大学出版社,1998.
[18]蒋承林,俞启香.煤与瓦斯突出机理的球壳失稳假说[J].煤矿安全,1995,(2):17-25.
[19]氏平增之.煤和瓦斯突出的模型研究及其机理探讨[C].见:第二十一届国际采矿安全会议论文集,1985,80-85.
[20]俞善炳.恒稳推进的煤与瓦斯突出[J].力学学报, 1988, 20(2): 97-106.
[21]丁晓良,俞善炳,丁雁生,等.煤在瓦斯渗流作用下持续破坏的机制[J].中国科学(A辑), 1989 ,(6): 600-607.
[22]郑哲敏,陈力,丁雁生.一维瓦斯突出破碎阵面的恒稳推进[J].中国科学(A辑), 1993, 23(4): 377-384.
[23]孟祥跃,丁雁生,陈力,等.煤与瓦斯突出的二维模拟实验研究[J].煤炭学报, 1996, 21(1): 57-62.
[24]章梦涛.冲击地压失稳理论与数值模拟计算[J].岩石力学与工程学报,1991,4:
[25]章梦涛.谈谈煤与瓦斯突出理论的研究.见:煤矿瓦斯灾害防治理论战略研讨[M].徐州:中国矿业大学出版社,2001.
[26]梁冰等.煤与瓦斯突出固流耦合失稳理论[J].煤炭学报,1995,20(5): 492-501.
[27]梁冰,章梦涛.考虑时间效应煤和瓦斯突出的失稳破坏机理研究[J].阜新矿业学院学报(自然科学版),1997,16(2): 129-133.
[28]梁冰.煤和瓦斯突出流固耦合失稳理论[M].北京:地质出版社,2000.
[29]鲜学福,许江,李贺.煤和瓦斯突出危险区划分的力学机制.见:矿山岩体工程地质力学研究[M].北京:中国科技文献出版社,1993.
[30]鲜学福,许江,李贺.层状复合煤岩力学特性的实验研究.见:矿山岩体工程地质力学研究[M].北京:中国科技文献出版社,1993.
[31]鲜学福,许江,王宏图.煤与瓦斯突出潜在危险区(带)预测的探讨.见:煤矿瓦斯灾害防治理论战略研讨[M].徐州:中国矿业大学出版社,2001.
[32]吕绍林,何继善.关键层—应力墙瓦斯突出机理[J].重庆大学学报,1999,22(6):81-85.
[33]何继善,吕绍林.瓦斯突出地球物理研究[J].北京:煤炭工业出版社,1999.
[34]МалышевЮ.Н.,АйруниА.Т.,ХудинЮ.Л.,БольшинскийМ.И.Методыпрогнозаиспособыпредотвращениявыбросовгаза,угляипород.М.:Недра,-1995. -351с.
[35]ЭттингерИ.Л.Своиствауглей,влияющиенабезопасностьТрудавшахтах.-М. :Госгортехиздат.-1961.-310с.
[36]БольшинскийМ.И. ,БельскаяН.Р.Состояниепроблемыборьбысвыбросамизарубежом. -М.:ЦНИЭИуголь,1984.-50с.
[37] Paul K. Forewarning and prediction of gas outbursts in a West German mine[C].In: The Occurrence Prediction and Control of Outbursts in Coal Mines Symposium, Southern Queensland Branch of the Australian Institute of Mining and Metallurgy, 1980, Brisbane, Australia.
[38] Noack K, Paul K, Poertge F. Present stage in the prevention of outbursts of coal and gas in the West German bituminous coal mines. In: Proceedings of the 20th International Conference of Safety in Mines Research Institutes ,Sheffield,1983,3-7,oct. Buxton, UK.
[39]王佑安.煤与瓦斯突出危险预测方法[J].煤矿安全,1984,4:23-24.
[40]俞启香.矿井瓦斯防治[M].徐州:中矿业大学出版社,1992.
[41]辽宁省煤炭研究所第一研究室等.国外煤与瓦斯突出预测及其发展趋势[C].见:国外煤与瓦斯突出资料汇编(第一集),科学技术出版社重庆分社,1978.
[42]中国矿业学院瓦斯组.煤和瓦斯突出的防治[M].北京:煤炭工业出版社,1979.
[43]焦作工学院瓦斯地质研究室.瓦斯地质概论[M].北京:煤炭工业出版社,1991.
[44]李平,刘明举,廖斌琛等.煤与瓦斯突出区域预测瓦斯地质方法研究[C].见:“十五”国家安全生产优秀科技成果汇编煤矿分册,北京:煤炭工业出版社,2007.
[45]王恩营,刘明举,魏建平.构造煤成因—结构—构造分类新方案[J].煤炭学报,2009,34(5):657-660.
[46]ГалушкоП.Я.Оприродевнезапныхвыбросовпородынашахте《Щегловская-Глубокая》.//УгольУкраины.1964.-№2.-с.46-47.
[47]ГалушкоВ.Т.,ЗоринА.Н.ВыбросыпородывгорныхвырвботкахшахтДонбасса.-Киев:Науковадумка.-1971.-168с.
[48]НиколинВ.И.,МеликсетовС.С.,БерковичИ.М.Выбросыпородыигаза.-М.:-1967.-80с.
[49]ВолошинН.Е. ,ТарасьевВ.И.Борьбасвыбросамипородывшахте.-Донецк,Донбасс-1968.-136с.
[50]ЗабигайлоВ.Е. ,ЛукиновВ.В. ,ШироковА.З.ВыбросоопасностьгорныхпородДонбасса.-Киев:Науковадумка.-1984.-161с.
[51]БорисенкоА.А.,Крешениюзадачиораспределениинапряхениявпризабойнойзонеугольногопласта. //Физ-тех.проблемыразработкиполезныхискапоемых.1979. -№5,-с.96-101.
[52]НорельБ.К.,Обусловияхсвязимеждунапряженнымиидеформациямигазонасыщенногоугольногопласта.-Научн.сообщения.Институтгорногоделаим.А.А.Скочинского.-М.:-1977,вып.143,-с.14-19.
[53]ЧерновО.И.,РязанцевЕ.С.Предупреждениевнезапныхвыбросовугляигазавугольныхшахтах. -М.:Недра.-1971.-260с.
[54]ЧирковС.В.,НорельВ.К.Ораспределениигорногодавлениявпризабойнойчастиугольногопласта.-Вкн.Напряженноесостояниепородныхмассивов.-Новосибирск:СОАНСССР.-1987.-с.14-20.
[55] Brown E.T,Hoek E.Technical note Treds in relationships between measured in-situ stresses and depth[J].int.J.Rock Mech.Min.sci.& Geomech.Abstr, 1978, 15:211-215.
[56]李方全,齐英男.地壳应力随深度的变化规律[J].岩石力学与工程学报,1988,7(4):301-309.
[57]姚宝魁,孙广忠,尹代勋.煤与瓦斯突出的区域性预测[M].北京:中国科学技术出版社,1993.
[58]杨立生.全国煤矿瓦斯地质编图研究成果初步总结[J].焦作工学院学报.1997,16(2):6-11.
[59]彭立世.用地质观点进行瓦斯突出预测研究[C].见:煤炭工业部煤炭科学研究重庆分院,煤与瓦斯突出预测资料汇编,1987.
[60]彭立世.煤与瓦斯突出区域预测的认识基础[J].煤矿安全,1996,2:35-37.
[61]彭立世,王新义,汤友谊等.瓦斯突出危险带预测的瓦斯地质技术[C].瓦斯地质新进展,2001:63-6.
[62]袁崇孚.我国瓦斯地质的发展及应用[J].煤炭学报,1997,22 (6) :566-570.
[63]中国统配煤矿总公司.1:200万中国煤层瓦斯地质图编制[M].西安:西安地图出版社出版发行,1992.
[64]蒲文龙,张宏伟,郭守泉.地质动力区划法在预测矿井动力现象中应用[J].矿山压力与顶板管理,2004,4:96-114.
[65]张宏伟,马义飞,段克信.地质动力区划在北票矿区的应用[J].东北煤炭技术,1996,2(2):39-41
[66]张宏伟.地质动力区划方法在煤与瓦斯突出区域预测中的应用[J].岩石力学与工程学报,2003,22(4):621-624.
[67]宋卫华,张宏伟.煤与瓦斯突出区域预测的地质动力区划[J].矿业安全与环保,2008,33(4):7-9.
[68]王志辉,张宏伟,石永生.地质动力区划在新汶藩西矿的应用[J].辽宁工程技术大学学报,2005,24卷增刊:2-3.
[69]王显政.煤矿安全新技术[M].北京:煤炭工业出版社,2002.
[70]王凯,俞启香,周保生.瓦斯突出的钻孔法预报机理及预测指标探析[J].江苏煤炭,1995,2:13-9.
[71]华福明.突出预测及防突措施效果检验[J].煤炭工程师,1988,6.
[72]王日存,王佑安.钻孔钻屑量测定及其与突出危险性关系[J].煤矿安全,1983(9).
[73]煤炭科学研究总院重庆分院瓦斯突出预测小组.煤与瓦斯突出预测预报的研究[J],.煤炭工程,1986(4).
[74]丰城矿务局,焦作工学院.煤与瓦斯突出点预测方法[J].见:科研鉴定资料,1984
[75]于不凡.国内外煤和瓦斯突出日常预测研究综述[C].见:煤炭科学总院重庆分院编.煤与瓦斯突出预测资料汇编,1987.
[76] (俄)Ю.Н.马雷舍夫.煤与瓦斯突出预测方法和防治措施[M].魏风清,张建国译.北京:煤炭工业出版社,2005.
[77]秦祥基.关于钻孔瓦斯涌出初速度法预测煤巷掘进工作面突出危险性的探讨[J].焦作工学院学报,1993(3).2-5.
[78]魏风清,张晋京.钻孔瓦斯涌出初速度测试深度的探讨[J].煤炭科学技术,2004,32(5):61-64
[79]邵军.关于钻屑瓦斯解吸指标的探讨[J].煤矿安全,1990(3):35-39.
[80]邵军.K1指标的实验室研究[J].煤矿安全,1994,12(12):1-5.
[81]胡千庭,文光才,徐三民.工作面突出预测敏感指标及临界值确定方法的研究[J].煤炭工程,1998(增刊):8-10.
[82]王魁军,程五一,栾永祥.预测敏感指标及临界值的确定[J].煤炭科学技术,1996,21(11):44-47.
[83]蔡成功,王魁军.MD-2型煤钻屑瓦斯解吸仪[J].煤矿安全,1992(7):16-18.
[84]胡千庭.WTC瓦斯突出参数仪及其应用[J].煤炭工程师,1994(6).
[85]王凯,俞启香.煤与瓦斯突出的非线性特征及预测模型[M].徐州:中国矿业大学出版社,2005. 10-11.
[86]吴自立.AE信号参数预测预报煤(岩)与瓦斯突出危险性的进展及研究[J].矿业安全与环保.2005,32(1):27-29.
[87]聂百胜,何学秋,王恩元.煤与瓦斯突出预测技术研究现状及发展趋势[J].中国安全科学学报. 2006,13(6):41-43.
[88] Drouillard T.Acoustic Emission-the first half century [A].Progress in Acoustic EmissionⅦ[C]. Sapporo, Japan: The JaPanese Society for NDI, 1994.
[89] Drouilard T.Acoustic Emission: A Bibliography with Abstracts [M].Frances Laner,ed. NeW YorK: IFI Plenum Data Company,1979.
[90]苏文叔.利用瓦斯涌出动态指标预测煤与瓦斯突出[J].煤炭工程师,1996(5).
[91]刘明举.计算机模式识别技术在煤与瓦斯突出预测预报中的应用[J].瓦斯地质,1989.
[92]何学秋,刘明举.含瓦斯煤岩破坏电磁动力学[M].徐州:中国矿业大学出版社,1995.
[93]王恩元,何学秋,聂百胜等.电磁辐射法预测煤与瓦斯突出原理[J].中国矿业大学学报,2000,29(3):225-229.
[94]聂百胜,何学秋,王恩元等.用电磁辐射法非接触预测煤与瓦斯突出[J].煤矿安全,2000(2):41-43.
[95]李建铭.煤与瓦斯突出防治手册[M].徐州:中国矿业大学出版社,2006. 225-226.
[96]ИвановБ.М.Научныеосновыикомплексныеметодыоценкивыбросоопасныхзонугольныхпластов.Диссертациянасоисканиеученойстепенидокторатехническихнауквформенаучногодоклада.Москва,1994. -52с.
[97]АнцыферовМ.С. ,Анцыферов.Н.Г. ,КаганЯ.Я.СейсмоакустическиеисследованияиПроблемапрогнозадинамическихявлений. -М:Наука,-1971. -135с.
[98]周松元.煤与瓦斯突出预测敏感指标及临界值的确定.湖南煤炭科技[J],1995.9:26-29
[99]孙东玲.突出敏感指标及临界值确定方法的探讨与尝试.煤炭工程师[J],1996.4.3:3-7
[100]李成武,何学秋.工作面煤与瓦斯突出危险程度预测技术研究[J].中国矿业大学学报,2005,34(1):72-76.
[101]熊亚选:工作面煤与瓦斯突出预测敏感指标确定方法研究.硕士论文[D].焦作:河南理工大学.2005.
[102]田坤云,王兆丰,杨立平等.大宁煤矿突出预测敏感指标及临界值的探索[J].煤矿安全.2006,Total382:51-53.
[103]ПроскуряковН.М.Внезапныевыбросыпородыигазавкалийныхрудниках. -М:Недра.-1980. -263с.
[104]БольшинскийМ.И.,ЛысиковБ.А.,КаплюхинА.А.Газодинамическиеявлениявшахтах.Севастополь:Вебер.-2003. -285с.
[105]ЖекамуховМ.К.,ЖекамуховаИ.М.Кпроблемевнезапныхвыбросовугляигазавшахтах.Электронныйжурнал.http://zhurnal.ape.relarn.ru/articles/2003/045.pdf.-с.526-538.
[106]ИвановБ.М.,ФейтГ.Н.,ЯновскаяМ.Ф.Механическиеифизико-химическиесвойствауглейвыбросоопасныхпластов.М.:Наука.-1979.-195с
[107]文光才.煤与瓦斯突出能量的研究[J].矿业安全与环保,2003,30(6):1-3.
[108]文光才,周俊,刘胜.对突出做功的瓦斯内能的研究[J].矿业安全与环保,2002,29(1):1-3.
[109]景国勋,张强.煤与瓦斯突出过程中瓦斯作用的研究[J].煤炭学报,2005,30(2):169-171.
[110]刘建军,梁冰,章梦涛.煤与瓦斯突出过程中瓦斯作用机理的研究[J].中国安全科学学报,2000,10(3):63-66.
[111]扬起,韩德馨.中国煤田地质学[M].北京:煤炭工业出版社,1982.
[112]邵震杰,任文忠,陈家良.煤田地质学[M].北京:煤炭工业出版社,1993.
[113]张子敏,张玉贵.瓦斯地质规律与瓦斯预测[M].北京:煤炭工业出版社,2005.
[114]何满潮,景海河,孙晓明.软岩工程力学[M].北京:科学出版社,2002.
[115]缪协兴,陈智纯.软岩力学[M].徐州:中国矿业大学出版社,1995.
[116]周世宁,林柏泉.煤层瓦斯赋存与流动理论[M].北京:煤炭工业出版社,1999.
[117]张武,屠锡跟.中国煤炭工业百科全书:安全卷[M].北京:煤炭工业出版社,2000.
[118]ФренкельЯ.И.Теорияявленийконденсациииадсорбции.Собраниеизбранныхтрудов.Т. II.М.–Л. 1958.с. 232– 253.
[119]РивкатовичХ.Р.Теоретическиеосновыпрогнозаипредупреждениягазодинамическихявленийвугольныхшахтах.диссертациинасоисканиеученойстепенидокторатехниче-скихнаук.РеспубликаКазахстан,Караганда, 2009г.
[120]刘长武,翟才旺.地层空间应力场的开采扰动与模拟[M].郑州:黄河水利出版社, 2005: 12-18.
[121] [俄]И.М.Петухов著,段可信译.冲击地压和突出的力学计算方法[M]. 1994: 13-31, 131-139.
[122]马念杰,侯朝炯.采准巷道矿压理论及应用[M].徐州:中国矿业大学出版社, 1995: 5-7, 62-75.
[123]张国华,梁冰.煤岩渗透率与煤与瓦斯突出关系理论探讨[J].辽宁工程技术大学学报,2002,21(4):415-417.
[124]郑哲敏.从数量级和量纲分析看煤与瓦斯突出的机理[A].煤炭工业部煤炭科学研究院重庆研究所煤与瓦斯突出机理和预测预报第三次科研工作及学术交流议论文集[C].北京:煤炭工业出版社. 1983:3-11.
[125]朱连山.煤炭的破碎及其对煤和瓦斯突出的影响[J].煤矿安全,1987,3:17-24
[126]蔡美峰.岩石力学与工程[M].北京:科学出版社,2005.
[127]杨永杰,宋扬,陈绍杰.三轴压缩煤岩强度及变形特征的试验研究[J].煤炭学报,2006,31(2):151-153.
[128]徐芝纶.弹性力学(上册)[M].北京:高等教育出版社.1990:286-288
[129]煤炭科学研究院重庆研究所.煤样解吸瓦斯泄出的研究及突出煤层煤样瓦斯解吸的特点[A].煤炭工业部煤炭科学研究院重庆研究所煤与瓦斯突出机理和预测预报第三次科研工作及学术交流会议论文集[C].北京:煤炭工业出版杜.1983:14-16.
[130]ИвановБ.М.,ФейтГ.Н.,ЯновскаяМ.Ф.Механическиеифизико-химическиесвойствауглейвыбросоопасныхпластов[M].М.:Наука.1979:160-161.
[131]周世宁.瓦斯在煤层中流动的机理[J].煤炭学报,1990,15(1):15-24.
[2]ДокунииА.В.,АйруниА.Т.,ЭттингерИ.И.,БольшинскийМ.И.,ЗверевИ.В.,ДолговаМ.О.Борьбасвнезапнымивыбросамигазаиуглявшахтах.ВестникАНССССР,М.:1984.№12.С.44-55.
[3]国家安全生产监督管理总局.防治煤与瓦斯突出规定.2009.
[4]Инструкцияпобезопасномуведениюгорныхработнапластах,опасныхповнезапнымвыбросамугля(породы)игаза.ГосгортехнадзорРоссии.2000.
[5]ИвановБ.М.,ФейтГ.Н.,ЯновскаяМ.Ф.Механическиеифизико-химическиесвойствауглейвыбросоопасныхпластов.-М.:Наука.-1979.-195с.
[6]Ю.Н.Малышев,А.Т.Айруни,Ю.Л.Худин,М.И.Большинский.Методыпрогнозаиспособыпредотвращениявыбросовгаза,угляипород.М.:Недра,1995.
[7]МинеевС.П.,РубинскийА.А.Основныезакономерностипроявлениямощныхгазодинамическихявленийвугольныхшахтах.Науков?прац?ДонНТУ.Сер?я?Г?рничо-геолог?чна?.Вип.10(151). 2009р. 129–136.
[8]付建华,程远平.中国煤矿煤与瓦斯突出现状及防治对策[J].采矿与安全工程学报,2007,24(3):253-259.
[9]中华人民共和国安全生产行业标准.煤与瓦斯突出矿井鉴定规范.国家安全生产监督管理总局.2006.
[10]于不凡.煤和瓦斯突出机理[M].北京:煤炭工业出版社,1985.
[11]МалышевЮ.Н.,ТрубецкойК.Н.,АйруниА.Т.Фундаментальноприкладныеметодырешенияпроблемыметанаугольныхпластов.ИздательствоАкадемиигорныхнаук.Москва.-2000. -517с.
[12]王佑安等.煤矿安全手册第二篇矿井瓦斯防治[M].煤炭工业出版社.1994.
[13]俞启香.矿井瓦斯防治[M].中国矿业大学出版社.1992.
[14] [苏] B.B.霍多特.煤和瓦斯突出[M].宋士钊,王佑安译.北京:中国工业出版社,1966.
[15]何学秋,周世宁.煤和瓦斯突出机理的流变假说[J].煤矿安全, 1991, (10): 1-7.
[16]何学秋,刘明举.含瓦斯煤岩破坏电磁动力学[M].徐州:中国矿业大学出版社,1995.
[17]蒋承林,俞启香.煤与瓦斯突出的球壳失稳机理及防治技术[M].徐州:中国矿业大学出版社,1998.
[18]蒋承林,俞启香.煤与瓦斯突出机理的球壳失稳假说[J].煤矿安全,1995,(2):17-25.
[19]氏平增之.煤和瓦斯突出的模型研究及其机理探讨[C].见:第二十一届国际采矿安全会议论文集,1985,80-85.
[20]俞善炳.恒稳推进的煤与瓦斯突出[J].力学学报, 1988, 20(2): 97-106.
[21]丁晓良,俞善炳,丁雁生,等.煤在瓦斯渗流作用下持续破坏的机制[J].中国科学(A辑), 1989 ,(6): 600-607.
[22]郑哲敏,陈力,丁雁生.一维瓦斯突出破碎阵面的恒稳推进[J].中国科学(A辑), 1993, 23(4): 377-384.
[23]孟祥跃,丁雁生,陈力,等.煤与瓦斯突出的二维模拟实验研究[J].煤炭学报, 1996, 21(1): 57-62.
[24]章梦涛.冲击地压失稳理论与数值模拟计算[J].岩石力学与工程学报,1991,4:
[25]章梦涛.谈谈煤与瓦斯突出理论的研究.见:煤矿瓦斯灾害防治理论战略研讨[M].徐州:中国矿业大学出版社,2001.
[26]梁冰等.煤与瓦斯突出固流耦合失稳理论[J].煤炭学报,1995,20(5): 492-501.
[27]梁冰,章梦涛.考虑时间效应煤和瓦斯突出的失稳破坏机理研究[J].阜新矿业学院学报(自然科学版),1997,16(2): 129-133.
[28]梁冰.煤和瓦斯突出流固耦合失稳理论[M].北京:地质出版社,2000.
[29]鲜学福,许江,李贺.煤和瓦斯突出危险区划分的力学机制.见:矿山岩体工程地质力学研究[M].北京:中国科技文献出版社,1993.
[30]鲜学福,许江,李贺.层状复合煤岩力学特性的实验研究.见:矿山岩体工程地质力学研究[M].北京:中国科技文献出版社,1993.
[31]鲜学福,许江,王宏图.煤与瓦斯突出潜在危险区(带)预测的探讨.见:煤矿瓦斯灾害防治理论战略研讨[M].徐州:中国矿业大学出版社,2001.
[32]吕绍林,何继善.关键层—应力墙瓦斯突出机理[J].重庆大学学报,1999,22(6):81-85.
[33]何继善,吕绍林.瓦斯突出地球物理研究[J].北京:煤炭工业出版社,1999.
[34]МалышевЮ.Н.,АйруниА.Т.,ХудинЮ.Л.,БольшинскийМ.И.Методыпрогнозаиспособыпредотвращениявыбросовгаза,угляипород.М.:Недра,-1995. -351с.
[35]ЭттингерИ.Л.Своиствауглей,влияющиенабезопасностьТрудавшахтах.-М. :Госгортехиздат.-1961.-310с.
[36]БольшинскийМ.И. ,БельскаяН.Р.Состояниепроблемыборьбысвыбросамизарубежом. -М.:ЦНИЭИуголь,1984.-50с.
[37] Paul K. Forewarning and prediction of gas outbursts in a West German mine[C].In: The Occurrence Prediction and Control of Outbursts in Coal Mines Symposium, Southern Queensland Branch of the Australian Institute of Mining and Metallurgy, 1980, Brisbane, Australia.
[38] Noack K, Paul K, Poertge F. Present stage in the prevention of outbursts of coal and gas in the West German bituminous coal mines. In: Proceedings of the 20th International Conference of Safety in Mines Research Institutes ,Sheffield,1983,3-7,oct. Buxton, UK.
[39]王佑安.煤与瓦斯突出危险预测方法[J].煤矿安全,1984,4:23-24.
[40]俞启香.矿井瓦斯防治[M].徐州:中矿业大学出版社,1992.
[41]辽宁省煤炭研究所第一研究室等.国外煤与瓦斯突出预测及其发展趋势[C].见:国外煤与瓦斯突出资料汇编(第一集),科学技术出版社重庆分社,1978.
[42]中国矿业学院瓦斯组.煤和瓦斯突出的防治[M].北京:煤炭工业出版社,1979.
[43]焦作工学院瓦斯地质研究室.瓦斯地质概论[M].北京:煤炭工业出版社,1991.
[44]李平,刘明举,廖斌琛等.煤与瓦斯突出区域预测瓦斯地质方法研究[C].见:“十五”国家安全生产优秀科技成果汇编煤矿分册,北京:煤炭工业出版社,2007.
[45]王恩营,刘明举,魏建平.构造煤成因—结构—构造分类新方案[J].煤炭学报,2009,34(5):657-660.
[46]ГалушкоП.Я.Оприродевнезапныхвыбросовпородынашахте《Щегловская-Глубокая》.//УгольУкраины.1964.-№2.-с.46-47.
[47]ГалушкоВ.Т.,ЗоринА.Н.ВыбросыпородывгорныхвырвботкахшахтДонбасса.-Киев:Науковадумка.-1971.-168с.
[48]НиколинВ.И.,МеликсетовС.С.,БерковичИ.М.Выбросыпородыигаза.-М.:-1967.-80с.
[49]ВолошинН.Е. ,ТарасьевВ.И.Борьбасвыбросамипородывшахте.-Донецк,Донбасс-1968.-136с.
[50]ЗабигайлоВ.Е. ,ЛукиновВ.В. ,ШироковА.З.ВыбросоопасностьгорныхпородДонбасса.-Киев:Науковадумка.-1984.-161с.
[51]БорисенкоА.А.,Крешениюзадачиораспределениинапряхениявпризабойнойзонеугольногопласта. //Физ-тех.проблемыразработкиполезныхискапоемых.1979. -№5,-с.96-101.
[52]НорельБ.К.,Обусловияхсвязимеждунапряженнымиидеформациямигазонасыщенногоугольногопласта.-Научн.сообщения.Институтгорногоделаим.А.А.Скочинского.-М.:-1977,вып.143,-с.14-19.
[53]ЧерновО.И.,РязанцевЕ.С.Предупреждениевнезапныхвыбросовугляигазавугольныхшахтах. -М.:Недра.-1971.-260с.
[54]ЧирковС.В.,НорельВ.К.Ораспределениигорногодавлениявпризабойнойчастиугольногопласта.-Вкн.Напряженноесостояниепородныхмассивов.-Новосибирск:СОАНСССР.-1987.-с.14-20.
[55] Brown E.T,Hoek E.Technical note Treds in relationships between measured in-situ stresses and depth[J].int.J.Rock Mech.Min.sci.& Geomech.Abstr, 1978, 15:211-215.
[56]李方全,齐英男.地壳应力随深度的变化规律[J].岩石力学与工程学报,1988,7(4):301-309.
[57]姚宝魁,孙广忠,尹代勋.煤与瓦斯突出的区域性预测[M].北京:中国科学技术出版社,1993.
[58]杨立生.全国煤矿瓦斯地质编图研究成果初步总结[J].焦作工学院学报.1997,16(2):6-11.
[59]彭立世.用地质观点进行瓦斯突出预测研究[C].见:煤炭工业部煤炭科学研究重庆分院,煤与瓦斯突出预测资料汇编,1987.
[60]彭立世.煤与瓦斯突出区域预测的认识基础[J].煤矿安全,1996,2:35-37.
[61]彭立世,王新义,汤友谊等.瓦斯突出危险带预测的瓦斯地质技术[C].瓦斯地质新进展,2001:63-6.
[62]袁崇孚.我国瓦斯地质的发展及应用[J].煤炭学报,1997,22 (6) :566-570.
[63]中国统配煤矿总公司.1:200万中国煤层瓦斯地质图编制[M].西安:西安地图出版社出版发行,1992.
[64]蒲文龙,张宏伟,郭守泉.地质动力区划法在预测矿井动力现象中应用[J].矿山压力与顶板管理,2004,4:96-114.
[65]张宏伟,马义飞,段克信.地质动力区划在北票矿区的应用[J].东北煤炭技术,1996,2(2):39-41
[66]张宏伟.地质动力区划方法在煤与瓦斯突出区域预测中的应用[J].岩石力学与工程学报,2003,22(4):621-624.
[67]宋卫华,张宏伟.煤与瓦斯突出区域预测的地质动力区划[J].矿业安全与环保,2008,33(4):7-9.
[68]王志辉,张宏伟,石永生.地质动力区划在新汶藩西矿的应用[J].辽宁工程技术大学学报,2005,24卷增刊:2-3.
[69]王显政.煤矿安全新技术[M].北京:煤炭工业出版社,2002.
[70]王凯,俞启香,周保生.瓦斯突出的钻孔法预报机理及预测指标探析[J].江苏煤炭,1995,2:13-9.
[71]华福明.突出预测及防突措施效果检验[J].煤炭工程师,1988,6.
[72]王日存,王佑安.钻孔钻屑量测定及其与突出危险性关系[J].煤矿安全,1983(9).
[73]煤炭科学研究总院重庆分院瓦斯突出预测小组.煤与瓦斯突出预测预报的研究[J],.煤炭工程,1986(4).
[74]丰城矿务局,焦作工学院.煤与瓦斯突出点预测方法[J].见:科研鉴定资料,1984
[75]于不凡.国内外煤和瓦斯突出日常预测研究综述[C].见:煤炭科学总院重庆分院编.煤与瓦斯突出预测资料汇编,1987.
[76] (俄)Ю.Н.马雷舍夫.煤与瓦斯突出预测方法和防治措施[M].魏风清,张建国译.北京:煤炭工业出版社,2005.
[77]秦祥基.关于钻孔瓦斯涌出初速度法预测煤巷掘进工作面突出危险性的探讨[J].焦作工学院学报,1993(3).2-5.
[78]魏风清,张晋京.钻孔瓦斯涌出初速度测试深度的探讨[J].煤炭科学技术,2004,32(5):61-64
[79]邵军.关于钻屑瓦斯解吸指标的探讨[J].煤矿安全,1990(3):35-39.
[80]邵军.K1指标的实验室研究[J].煤矿安全,1994,12(12):1-5.
[81]胡千庭,文光才,徐三民.工作面突出预测敏感指标及临界值确定方法的研究[J].煤炭工程,1998(增刊):8-10.
[82]王魁军,程五一,栾永祥.预测敏感指标及临界值的确定[J].煤炭科学技术,1996,21(11):44-47.
[83]蔡成功,王魁军.MD-2型煤钻屑瓦斯解吸仪[J].煤矿安全,1992(7):16-18.
[84]胡千庭.WTC瓦斯突出参数仪及其应用[J].煤炭工程师,1994(6).
[85]王凯,俞启香.煤与瓦斯突出的非线性特征及预测模型[M].徐州:中国矿业大学出版社,2005. 10-11.
[86]吴自立.AE信号参数预测预报煤(岩)与瓦斯突出危险性的进展及研究[J].矿业安全与环保.2005,32(1):27-29.
[87]聂百胜,何学秋,王恩元.煤与瓦斯突出预测技术研究现状及发展趋势[J].中国安全科学学报. 2006,13(6):41-43.
[88] Drouillard T.Acoustic Emission-the first half century [A].Progress in Acoustic EmissionⅦ[C]. Sapporo, Japan: The JaPanese Society for NDI, 1994.
[89] Drouilard T.Acoustic Emission: A Bibliography with Abstracts [M].Frances Laner,ed. NeW YorK: IFI Plenum Data Company,1979.
[90]苏文叔.利用瓦斯涌出动态指标预测煤与瓦斯突出[J].煤炭工程师,1996(5).
[91]刘明举.计算机模式识别技术在煤与瓦斯突出预测预报中的应用[J].瓦斯地质,1989.
[92]何学秋,刘明举.含瓦斯煤岩破坏电磁动力学[M].徐州:中国矿业大学出版社,1995.
[93]王恩元,何学秋,聂百胜等.电磁辐射法预测煤与瓦斯突出原理[J].中国矿业大学学报,2000,29(3):225-229.
[94]聂百胜,何学秋,王恩元等.用电磁辐射法非接触预测煤与瓦斯突出[J].煤矿安全,2000(2):41-43.
[95]李建铭.煤与瓦斯突出防治手册[M].徐州:中国矿业大学出版社,2006. 225-226.
[96]ИвановБ.М.Научныеосновыикомплексныеметодыоценкивыбросоопасныхзонугольныхпластов.Диссертациянасоисканиеученойстепенидокторатехническихнауквформенаучногодоклада.Москва,1994. -52с.
[97]АнцыферовМ.С. ,Анцыферов.Н.Г. ,КаганЯ.Я.СейсмоакустическиеисследованияиПроблемапрогнозадинамическихявлений. -М:Наука,-1971. -135с.
[98]周松元.煤与瓦斯突出预测敏感指标及临界值的确定.湖南煤炭科技[J],1995.9:26-29
[99]孙东玲.突出敏感指标及临界值确定方法的探讨与尝试.煤炭工程师[J],1996.4.3:3-7
[100]李成武,何学秋.工作面煤与瓦斯突出危险程度预测技术研究[J].中国矿业大学学报,2005,34(1):72-76.
[101]熊亚选:工作面煤与瓦斯突出预测敏感指标确定方法研究.硕士论文[D].焦作:河南理工大学.2005.
[102]田坤云,王兆丰,杨立平等.大宁煤矿突出预测敏感指标及临界值的探索[J].煤矿安全.2006,Total382:51-53.
[103]ПроскуряковН.М.Внезапныевыбросыпородыигазавкалийныхрудниках. -М:Недра.-1980. -263с.
[104]БольшинскийМ.И.,ЛысиковБ.А.,КаплюхинА.А.Газодинамическиеявлениявшахтах.Севастополь:Вебер.-2003. -285с.
[105]ЖекамуховМ.К.,ЖекамуховаИ.М.Кпроблемевнезапныхвыбросовугляигазавшахтах.Электронныйжурнал.http://zhurnal.ape.relarn.ru/articles/2003/045.pdf.-с.526-538.
[106]ИвановБ.М.,ФейтГ.Н.,ЯновскаяМ.Ф.Механическиеифизико-химическиесвойствауглейвыбросоопасныхпластов.М.:Наука.-1979.-195с
[107]文光才.煤与瓦斯突出能量的研究[J].矿业安全与环保,2003,30(6):1-3.
[108]文光才,周俊,刘胜.对突出做功的瓦斯内能的研究[J].矿业安全与环保,2002,29(1):1-3.
[109]景国勋,张强.煤与瓦斯突出过程中瓦斯作用的研究[J].煤炭学报,2005,30(2):169-171.
[110]刘建军,梁冰,章梦涛.煤与瓦斯突出过程中瓦斯作用机理的研究[J].中国安全科学学报,2000,10(3):63-66.
[111]扬起,韩德馨.中国煤田地质学[M].北京:煤炭工业出版社,1982.
[112]邵震杰,任文忠,陈家良.煤田地质学[M].北京:煤炭工业出版社,1993.
[113]张子敏,张玉贵.瓦斯地质规律与瓦斯预测[M].北京:煤炭工业出版社,2005.
[114]何满潮,景海河,孙晓明.软岩工程力学[M].北京:科学出版社,2002.
[115]缪协兴,陈智纯.软岩力学[M].徐州:中国矿业大学出版社,1995.
[116]周世宁,林柏泉.煤层瓦斯赋存与流动理论[M].北京:煤炭工业出版社,1999.
[117]张武,屠锡跟.中国煤炭工业百科全书:安全卷[M].北京:煤炭工业出版社,2000.
[118]ФренкельЯ.И.Теорияявленийконденсациииадсорбции.Собраниеизбранныхтрудов.Т. II.М.–Л. 1958.с. 232– 253.
[119]РивкатовичХ.Р.Теоретическиеосновыпрогнозаипредупреждениягазодинамическихявленийвугольныхшахтах.диссертациинасоисканиеученойстепенидокторатехниче-скихнаук.РеспубликаКазахстан,Караганда, 2009г.
[120]刘长武,翟才旺.地层空间应力场的开采扰动与模拟[M].郑州:黄河水利出版社, 2005: 12-18.
[121] [俄]И.М.Петухов著,段可信译.冲击地压和突出的力学计算方法[M]. 1994: 13-31, 131-139.
[122]马念杰,侯朝炯.采准巷道矿压理论及应用[M].徐州:中国矿业大学出版社, 1995: 5-7, 62-75.
[123]张国华,梁冰.煤岩渗透率与煤与瓦斯突出关系理论探讨[J].辽宁工程技术大学学报,2002,21(4):415-417.
[124]郑哲敏.从数量级和量纲分析看煤与瓦斯突出的机理[A].煤炭工业部煤炭科学研究院重庆研究所煤与瓦斯突出机理和预测预报第三次科研工作及学术交流议论文集[C].北京:煤炭工业出版社. 1983:3-11.
[125]朱连山.煤炭的破碎及其对煤和瓦斯突出的影响[J].煤矿安全,1987,3:17-24
[126]蔡美峰.岩石力学与工程[M].北京:科学出版社,2005.
[127]杨永杰,宋扬,陈绍杰.三轴压缩煤岩强度及变形特征的试验研究[J].煤炭学报,2006,31(2):151-153.
[128]徐芝纶.弹性力学(上册)[M].北京:高等教育出版社.1990:286-288
[129]煤炭科学研究院重庆研究所.煤样解吸瓦斯泄出的研究及突出煤层煤样瓦斯解吸的特点[A].煤炭工业部煤炭科学研究院重庆研究所煤与瓦斯突出机理和预测预报第三次科研工作及学术交流会议论文集[C].北京:煤炭工业出版杜.1983:14-16.
[130]ИвановБ.М.,ФейтГ.Н.,ЯновскаяМ.Ф.Механическиеифизико-химическиесвойствауглейвыбросоопасныхпластов[M].М.:Наука.1979:160-161.
[131]周世宁.瓦斯在煤层中流动的机理[J].煤炭学报,1990,15(1):15-24.