煤与瓦斯突出物理模拟试验研究现状及展望

doi:10.13722/j.cnki.jrme.2023.0325

摘要
图/表
参考文献
相关文章 (15)

全文: PDF (6485 KB) HTML (1 KB)
输出: BibTeX | EndNote (RIS)

摘要煤与瓦斯突出是煤矿井下开采活动中较为常见的动力灾害，严重威胁着矿井安全绿色生产。鉴于现场煤与瓦斯突出的不确定性、突发性和危险性，物理模拟试验成为了研究煤与瓦斯突出机制的有效手段。通过查阅大量文献发现：(1) 突出模拟试验装置由单轴向双轴、常规三轴、真三轴迭代升级，试件尺寸由小到大，数据采集由单一到多元化，各种大型多功能真三轴可视化、模块化试验系统的成功研制，为煤与瓦斯突出发生机制的定量研究提供了有效平台；(2) 开展大量围绕“三要素”的煤与瓦斯突出物理模拟试验研究，探索地应力、瓦斯压力、煤体物理力学性质对突出的影响程度，通过煤层温度和两相流冲击演化反演突出强度，基本掌握突出的发动条件及致灾机制，形成了具有我国特色的煤与瓦斯突出理论体系。然而，随着我国煤矿开采深度不断增加，深部煤与瓦斯突出机制变得更加复杂。针对新形势下煤与瓦斯突出研究存在的不足，对未来的研究方向提出建议和展望，旨在完善煤与瓦斯突出机制体系，突破定性假说研究阶段，对灾害孕育、发生、发展阶段的定量条件进行探索，为现场煤与瓦斯突出预测与防治提供可靠的理论基础。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	唐巨鹏1
	2
	张昕2
	潘一山3

关键词 ：采矿工程, 煤与瓦斯突出, 试验装置, 物理模拟, 研究现状

Abstract：Coal and gas outburst is a common dynamic disaster in underground coal mining activities，which seriously threatens the safety and green production of coal mines. In view of the uncertainty，suddenness and danger of coal and gas outburst，physical simulation test has become effective means to study the mechanism of coal and gas outburst. By consulting a large number of literatures，it is found that：(1) the outburst simulation experimental device was iteratively upgraded from uniaxial to biaxial，pseudo-triaxial and true triaxial. The size of the specimen was upgraded from small to large，and the data acquisition was changed from single to diversified. The successful development of various large-scale multi-functional true triaxial visualization and modular test systems provides an effective platform for quantitative research on the mechanism of coal and gas outburst. (2) A large number of physical simulation experiments on coal and gas outburst around the“three elements”were carried out，and the influence of in-situ stress，gas pressure and physical and mechanical properties of coal on the outburst was explored. Through the evolution of coal seam temperature and two-phase flow impact，the outburst intensity was inverted，the initiation conditions and disaster mechanism of outburst were basically mastered，and the theoretical system of coal and gas outburst with Chinese characteristics was formed. However，with increasing the depth of coal mining in China，the mechanism of deep coal and gas outburst becomes more complex. In view of the shortcomings of coal and gas outburst research under the new situation，the future research direction is prospected，aiming at improving the mechanism system of coal and gas outburst，breaking through the research stage of qualitative hypothesis，exploring the quantitative conditions of disaster preparation，occurrence and development stage，and providing a reliable theoretical basis for the prediction and prevention of coal and gas outburst on site.

Key words： mining engineering coal and gas outburst experiment device physical simulation research actuality

引用本文:

唐巨鹏1，2，张昕2，潘一山3. 煤与瓦斯突出物理模拟试验研究现状及展望[J]. 岩石力学与工程学报, 2024, 43(3): 521-541.
TANG Jupeng1，2，ZHANG Xin2，PAN Yishan3. Research status and prospect on physical simulation test of coal and gas outburst. , 2024, 43(3): 521-541.

链接本文:

http://rockmech.whrsm.ac.cn/CN/10.13722/j.cnki.jrme.2023.0325 或 http://rockmech.whrsm.ac.cn/CN/Y2024/V43/I3/521

[25]	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.(MENG Xiangyue，DING Yansheng，CHEN Li，et al． 2D simulation test of coal and gas outburst[J]. Journal of China Coal Society，1996，21(1)：57-62.(in Chinese))
[54]	SOBCZYK J. The influence of sorption processes on gas stresses leading to the coal and gas outburst in the laboratory conditions[J]. Fuel，2011，90(3)：1 018-1 023.
[63]	ZHANG C L，XU J，YIN G Z，et al. A novel large-scale multifunctional apparatus to study the disaster dynamics and gas flow mechanism in coal mines[J]. Rock Mechanics and Rock Engineering，2018，52(8)：2 889-2 898.
[72]	YUAN L. Control of coal and gas outbursts in Huainan mines in China：A review[J]. Journal of Rock Mechanics and Geotechnical Engineering，2016，8(4)：559-567.
[81]	汪西海. 煤和瓦斯突出与地应力之关系[J]. 地质力学学报，1997，(1)：90-96.(WANG Xihai. A study on the relationship between rock stress and outbursts of coal and gas[J]. Journal of Geomechanics，1997，(1)：90-96.(in Chinese))
[106]	韦纯福，李化敏，袁瑞甫. 含水率对煤与瓦斯突出强度影响的试验研究[J]. 煤炭科学技术，2014，42(6)：118-121.(WEI Chunfu，LI Huamin，YUAN Ruifu. Experimental study on intensity of coal and gas outburst effected by coal water content[J]. Coal Science and Technology，2014，42(6)：118-121.(in Chinese))
[110]	许江，刘东，彭守建，等. 煤样粒径对煤与瓦斯突出影响的试验研究[J]. 岩石力学与工程学报，2010，29(6)：1 231-1 237.(XU Jiang，LIU Dong，PENG Shoujian，et al. Experimental research on influence of particle diameter on coal and gas outburst[J]. Chinese Journal of Rock Mechanics and Engineering，2010，29(6)：1 231-1 237. (in Chinese))
[18]	YARTSEV V A. Crushing of coal in sudden drop of gas pressure[J]. Ugol，1958，(5)：35-36.
[112]	徐乐华，蒋承林. 煤样粒径对初始释放瓦斯膨胀能影响的试验研究[J]. 煤矿安全，2015，46(4)：20-22.(XU Lehua，JIANG Chenglin. Experimental study on influence of particle diameter on initial expansion energy of released gas[J]. Safety in Coal Mines，2015，46(4)：20-22.(in Chinese))
[27]	蔡成功. 煤与瓦斯突出三维模拟实验研究[J]. 煤炭学报，2004，29(1)：66-69.(CAI Chenggong. Experimental study on 3D simulation of coal and gas outbursts[J]. Journal of China Coal Society，2004，29(1)：66-69.(in Chinese))
[115]	周文杰. 煤与瓦斯突出影响因素的模拟实验研究[硕士学位论文][D]. 重庆：重庆大学，2012.(ZHOU Wenjie. Experimental study on influencing factors of coal and gas outburst[M. S. Thesis][D]. Chongqing：Chongqing University，2012.(in Chinese))
[119]	陈鲜展. 基于瓦斯含量法卸压层消突效果判别研究[博士学位论文][D]. 淮南：安徽理工大学，2017.(CHEN Xianzhan. Study on outburst-free effect in stress-relief seam based on gas content method[Ph. D. Thesis][D]. Huainan：Anhui University of Science and Technology，2017.(in Chinese))
[90]	BYKOV L N. Theory and practice of control of outbursts of gas and coal in mines[J]. Ugol，1958，(4)：14-19.
[121]	周斌，许江，彭守建，等. 基于可视化数据的瓦斯突出多物理场参数演化[J]. 中国矿业大学学报，2020，49(6)：1 067-1 076. (ZHOU Bin，XU Jiang，PENG Shoujian，et al. Dynamic evolution of gas outburst multiphysics parameter based on visual data[J]. Journal of China University of Mining and Technology，2020，49(6)：1 067-1 076. (in Chinese))
[124]	朱连山. 通过能量计算探讨煤和瓦斯突出机理[J]. 煤矿安全技术，1982，(3)：1-8.(ZHU Lianshan. The mechanism of coal and gas outburst is discussed by energy calculation[J]. Mining Safety and Environmental Protection，1982，(3)：1-8.(in Chinese))
[1]	国家统计局. 中华人民共和国2022年国民经济和社会发展统计公报[N]. 人民日报，2023.(National Bureau of Statistic. Announcement on the national economic and social development of the People's Republic of China in 2022[N]. People?s Daily，2023.(in Chinese))
[133]	陈永超. 煤与瓦斯突出冲击波传播规律的实验研究[硕士学位论文][D]. 焦作：河南理工大学，2009.(CHEN Yongchao. Experimental study on shock wave propagation law of coal and gas outburst[M. S. Thesis][D]. Jiaozuo：Henan Polytechnic University，2009.(in Chinese))
[2]	YAN F Z，XU J，PENG S J，et al. Breakdown process and fragmentation characteristics of anthracite subjected to high-voltage electrical pulses treatment[J]. Fuel，2020，275：117 926.
[142]	蒋安飞，孙东玲，刘延保，等. 煤粉粒径对突出冲击波传播特征的影响[J]. 矿业安全与环保，2021，48(5)：13-16.(JIANG Anfei，SUN Dongling，LIU Yanbao，et al. Influence of coal fine particle size on propagation characteristics of outburst shockwave[J]. Minging Safety and Environmental Protection，2021，48(5)：13-16.(in Chinese))
[55]	SKOCZYLAS N. Laboratory study of the phenomenon of methane and coal outburst[J]. International Journal of Rock Mechanics and Mining Sciences，2012，55：102-107.
[4]	JIN K，CHENG Y P，REN T，et al. Experimental investigation on the formation and transport mechanism of outburst coal-gas flow：Implications for the role of gas desorption in the development stage of outburst[J]. International Journal of Coal Geology，2018，194：45-58.
[6]	张超林，许江，彭守建，等. 煤与瓦斯突出物理模拟实验研究进展及展望[J]. 煤田地质与勘探，2018，46(4)：28-34.(ZHANG Chaolin，XU Jiang，PENG Shoujian，et al. Advances and prospects in physical simulation of coal and gas outburst[J]. Coal Geology and Exploration，2018，46(4)：28-34.(in Chinese))
[116]	WANG C J，YANG S Q，YANG D D，et al. Experimental analysis of the intensity and evolution of coal and gas outbursts[J]. Fuel，2018，226：252-262.
[8]	FAN C J，LI S，LUO M K，et al. Coal and gas outburst dynamic system[J]. International Journal of Mining Science and Technology，2017，27(1)：49-55.
[10]	胡千庭，文光才. 煤与瓦斯突出的力学作用机理[M]. 北京：科学出版社，2013：3-4.(HU Qianting，WEN Guangcai. Mechanical mechanism of coal and gas outburst[M]. Beijing：Science Press，2013：3-4.(in Chinese))
[14]	何满潮. 深部建井力学研究进展[J]. 煤炭学报，2021，46(3)：726-746.(HE Manchao. Research progress of deep shaft construction mechanics[J]. Journal of China Coal Society，2021，46(3)：726-746.(in Chinese))
[11]	张超林，王恩元，王奕博，等. 近20年我国煤与瓦斯突出事故时空分布及防控建议[J]. 煤田地质与勘探，2021，49(4)：134-141. (ZHANG Chaolin，WANG Enyuan，WANG Yibo，et al. Spatialtemporal distribution of outburst accidents from 2001 to 2020 in China and suggestions for prevention and control[J]. Coal Geology and Exploration，2021，49(4)：134-141.(in Chinese))
[68]	TU Q Y，XUE S，CHENG Y P，et al. Experimental study on the guiding effect of tectonic coal for coal and gas outburst[J]. Fuel，2022，309：122 087.
[15]	袁亮. 煤矿典型动力灾害风险判识及监控预警技术研究进展[J]. 煤炭学报，2020，45(5)：1 557-1 566.(YUAN Liang. Research progress on risk identification，assessment，monitoring and early warning technologies of typical dynamic disasters in coal mine[J]. Journal of China Coal Society，2020，45(5)：1 557-1 566.(in Chinese))
[77]	LOIRET J，LALIGANT G. General report：review of facts and observations[R]. [S. l.]：Regulations for Mines with Outburst，1923.
[3]	BLAC K DENNIS J. Review of coal and gas outburst in Australian underground coal mines[J]. International Journal of Mining Science and Technology，2019，29(6)：815-824.
[95]	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.(JIN Guoxun，ZHANG Qiang. Study on the role of gas in coal and gas outburst[J]. Journal of China Coal Society，2005，30(2)：169-171.(in Chinese))
[5]	张超林，彭守建，许江，等. 煤与瓦斯突出过程中气压时空演化规律[J]. 岩土力学，2017，38(1)：81-90.(ZHANG Chaolin，PENG Shoujian，XU Jiang，et al. Temporospatial evolution of gas pressure during coal and gas outburst[J]. Rock and Soil Mechanics，2017，38(1)：81-90.(in Chinese))
[7]	袁亮，薛阳，王汉鹏，等. 煤与瓦斯突出物理模拟试验研究新进展[J]. 隧道与地下工程灾害防治，2020，2(1)：1-10.(YUAN Liang，XUE Yang，WANG Hanpeng，et al. New Progress in physical simulation experiment of coal and gas outburst[J]. Hazard Control in Tunnelling and Underground Engineering，2020，2(1)：1-10.(in Chinese))
[13]	袁亮. 深部采动响应与灾害防控研究进展[J]. 煤炭学报，2021，46(3)：716-725.(YUAN Liang. Research progress of mining response and disaster prevention and control in deep coal mines[J]. Journal of China Coal Society，2021，46(3)：716-725.(in Chinese))
[102]	尹光志，赵洪宝，许江，等. 煤与瓦斯突出模拟试验研究[J]. 岩石力学与工程学报，2009，28(8)：1 674-1 680.(YIN Guangzhi，ZHAO Hongbao，XU Jiang，et al. Experimental study of simulation of coal and gas outburst[J]. Chinese Journal of Rock Mechanics and Engineering，2009，28(8)：1 674-1 680.(in Chinese))
[9]	何学秋，聂百胜，刘明举，等. 煤岩流变电磁动力学[M]. 北京：科学出版社，2003：7-8.(HE Xueqiu，NIE Baisheng，LIU Mingju，et al. Electromagnetic dynamics of coal or rock rheology[M]. Beijing：Science Press，2003：7-8.(in Chinese))
[12]	谢和平. 深部岩体力学与开采理论研究进展[J]. 煤炭学报，2019，44(5)：1 283-1 305.(XIE Heping. Research review of the state key research development program of China：Deep rock mechanics and mining theory[J]. Journal of China Coal Society，2019，44(5)：1 283-1 305.(in Chinese))
[61]	李慧，冯增朝，赵东，等. 三维应力作用下煤与瓦斯突出模拟试验及机理分析[J]. 采矿与安全工程学报，2018，35(2)：422-428.(LI Hui，FENG Zengchao，ZHAO Dong，et al. Simulation experiments and mechanism analysis of coal and gas outbursts under 3D stresses[J]. Journal of Mining and Safety Engineering，2018，35(2)：422-428.(in Chinese))
[76]	ZHANG X，TANG J P，PAN Y S，et al. Experimental study on intensity and energy evolution of deep coal and gas outburst[J]. Fuel，2022，324：124484.
[16]	SKOCZY?SKI A A. Communication of the initiation of a sudden outburst of gas and coal in the model in outburst laboratory of the Institute of Mining of AN SSSR[J]. Ugol，1953：1 039.
[21]	BODZIONY J，NELICKI A，PINDEL Z，et al. Laboratory trial of inducing aquasi-outburst[M]. Nowa Ruda，Radków：[s. n.]，1988：7-22.
[70]	文光才，孙海涛，曹偈，等. 深井煤岩瓦斯动力灾害模拟实验系统[J]. 煤炭学报，2020，45(1)：223-231.(WEN Guangcai，SUN Haitao，CAO Jie，et al. Simulation experiment system of coal and gas dynamic disaster in deep mine and its application in accident analysis[J]. Journal of China Coal Society，2020，45(1)：223-231.(in Chinese))
[79]	华安增. 地应力与煤和瓦斯突出的关系[J]. 中国矿业学院学报，1978，(1)：25-37.(HUA Anzeng. The relationship between ground stress and coal-gas outburst[J]. Journal of China University of Mining and Technology，1978，(1)：25-37.(in Chinese))
[88]	郭德勇，揣筱升，张建国，等. 构造应力场对煤与瓦斯突出的控制作用[J]. 煤炭学报，2023，48(8)：3 076-3 090.(GUO Deyong，CHUAl Xiaosheng，ZHANG Jianguo，et al. Controlling effect of tectonic stress field on coal and gas outburst[J]. Journal of China Coal Society，2023，48(8)：3 076-3 090.(in Chinese))
[23]	邓全封，栾永祥，王佑安. 煤与瓦斯突出模拟试验[J]. 煤矿安全，1989，(11)：5-10.(DENG Quanfeng，YI Yongxiang，WANG Youan. Simulation test of coal and gas outburst[J]. Coal Safety，1989，(11)：5-10.(in Chinese))
[111]	李一波，郑万成，王凤双. 煤样粒径对煤吸附常数及瓦斯放散初速度的影响[J]. 煤矿安全，2013，44(1)：5-8.(LI Yibo，ZHENG Wancheng，WANG Fengshuang，et al. The effect of coal sample particle size on coal adsorption constants and initial speed of methane diffusing[J]. Safety in Coal Mines，2013，44(1)：5-8.(in Chinese))
[97]	王维忠，陶云奇，许江，等. 不同瓦斯压力条件下的煤与瓦斯突出模拟实验[J]. 重庆大学学报：自然科学版，2010，33(3)：82-86.(WANG Weizhong，TAO Yunqi，XU Jiang，et al．Simulation of coal and gas outburst with different gas pressure[J]. Journal of Chongqing University：Natural Science，2010，33(3)：82-86.(in Chinese))
[120]	周斌，许江，彭守建，等. 突出过程中煤层及巷道多物理场参数动态响应[J]. 煤炭学报，2020，45(4)：1 385-1 397.(ZHOU Bin，XU Jiang，PENG Shoujian，et al. Dynamic response of coal seam and roadway during coal and gas outburst[J]. Journal of China Coal Society，2020，45(4)：1 385-1 397.(in Chinese))
[104]	LU Z，WANG L，LV M Z，et al. Experimental study on coal and gas outburst risk in strong outburst coal under different moisture content[J]. Frontiers in Earth Science，2022，(1)：10.
[129]	张超林，王奕博，王恩元，等. 煤与瓦斯突出过程中煤层及巷道温度时空演化规律[J]. 煤矿安全，2022，53(10)：57-63.(ZHANG Chaolin，WANG Yibo，WANG Enyuan，et al. Spatial-temporal evolution law of temperature in coal seam and roadway during coal and gas outburst[J]. Safety in Coal Mines，2022，53(10)：57-63.(in Chinese))
[113]	陈鲜展. 煤样粒径大小对煤与瓦斯突出强度影响研究[J]. 煤炭技术，2017，36(12)：142-143.(CHEN Xianzhan. Research on influence of coal's grain size on intensity of coal and gas outburst[J]. Coal Technology，2017，36(12)：142-143.(in Chinese))
[30]	张春华. 石门揭突出煤层围岩力学特性模拟试验研究[博士学位论文][D]. 淮南：安徽理工大学，2010.(ZHANG Chunhua. Simulation test and study on mechanical properties of surrounding rock of coal seam with outburst exposed by crosscut[Ph. D. Thesis][D]. Huainan：Anhui University of Science and Technology，2010.(in Chinese))
[138]	曹偈，孙海涛，戴林超，等. 煤与瓦斯突出动力效应的模拟研究[J]. 中国矿业大学学报，2018，47(1)：113-120.(CAO Jie，SUN Haitao，DAI Linchao，et al. Simulation research on dynamic effect of coal and gas outburst[J]. Journal of China University of Mining and Technology，2018，47(1)：113-120.(in Chinese))
[122]	周斌，许江，彭守建，等. 受载突出煤体的力学状态演变及破坏倾向性[J]. 煤炭学报，2022，47(3)：1 260-1 274.(ZHOU Bin，XU Jiang，PENG Shoujian，et al. Evolution of mechanical state and failure tendency of loaded outburst coal[J]. Journal of China Coal Society，2022，47(3)：1 260-1 274.(in Chinese))
[32]	欧建春. 煤与瓦斯突出演化过程模拟实验研究[博士学位论文][D]. 徐州：中国矿业大学，2012.(OU Jianchun. Study on simulation experiments of coal and gas outburst evolution[Ph. D. Thesis][D]. Xuzhou：China University of Mining and Technology，2012.(in Chinese))
[131]	程五一，刘晓宇，王魁军，等. 煤与瓦斯突出冲击波阵面传播规律的研究[J]. 煤炭学报，2004，29(1)：57-60.(CHENG Wuyi，LIU Xiaoyu，WANG Kuijun，et al. Study on regulation about shock-wave-front propagating for coal and gas outbursts[J]. Journal of China Coal Society，2004，29(1)：57-60.(in Chinese))
[147]	许江，程亮，魏仁忠，等. T型巷道中突出煤-瓦斯两相流动力学试验研究[J]. 岩土力学，2022，43(6)：1 423-1 433.(XU Jiang，CHENG Liang，WEI Renzhong，et al. Study on the propagation characteristics of coal-gas two-phase flow in T-shaped roadway[J]. Rock and Soil Mechanics，2022，43(6)：1 423-1 433.(in Chinese))
[34]	袁瑞甫，李怀珍. 含瓦斯煤动态破坏模拟实验设备的研制与应用[J]. 煤炭学报，2013，38(增1)：117-123.(YUAN Ruifu，LI Huaizhen. Development and application of simulation test apparatus for gassy coal dynamic failure[J]. Journal of China Coal Society，2013，38(Supp.1)：117-123.(in Chinese))
[140]	刘义，石必明，张煜，等. 煤与瓦斯突出两相流传播特性实验研究[J]. 中国安全生产科学技术，2021，17(7)：91-96.(LIU Yi，SHI Biming，ZHANG Yu，et al. Experimental study on propagation characteristics of two-phase flow in coal and gas outburst[J]. Journal of Safety Science and Technology，2021，17(7)：91-96.(in Chinese))
[114]	王凯，王亮，杜锋，等. 煤粉粒径对突出瓦斯-煤粉动力特征的影响[J]. 煤炭学报，2019，44(5)：1 369-1 377.(WANG Kai，WANG Liang，DU Feng，et al. Influence of coal powder particle sizes on dynamic characteristics of coal and gas outburst[J]. Journal of China Coal Society，2019，44(5)：1 369-1 377.(in Chinese))
[36]	张超林. 深部采动应力影响下煤与瓦斯突出物理模拟试验研究[硕士学位论文][D]. 重庆：重庆大学，2015.(ZHANG Chaolin. Experimental study on physical simulation of coal and gas outburst under the influence of deep mining stress[M. S. Thesis][D]. Chongqing：Chongqing University，2015.(in Chinese))
[149]	张超林，王奕博，王恩元，等. 煤与瓦斯突出煤粉在巷道内运移分布规律试验研究[J]. 煤田地质与勘探，2022，50(6)：11-19. (ZHANG Chaolin，WANG Yibo，WANG Enyuan，et al. Experimental study on the migration and distribution law of pulverized coal in roadway during coal and gas outburst[J]. Coal Geology and Exploration，2022，50(6)：11-19.(in Chinese))
[151]	彭守建，杨海林，程亮，等. 真三轴应力状态下煤与瓦斯突出两相流L型巷道运移特性试验研究[J/OL]. 煤炭学报，https://kns.cnki.net/ kcms/detail//11.2190.TD.20221116.1806.017.html.(PENG Shoujian，YANG Hailin，CHENG Liang，et al. Experimental study on migration characteristics of coal and gas outburst two-phase flow in L-shaped roadway under true triaxial conditions[J/OL]. Journal of China Coal Society，https://kns.cnki.net/kcms/detail//11.2190.TD.20221116.1806.017.html. (in Chinese))
[17]	KRAVCHENKO V S. On the nature and mechanism of sudden outbursts of gas and coal[J]. Nauchnye Soobshcheniya Instituta Gornogo Dela Im A. A. Skochinskogo，1955，(6)：101-108.
[117]	彭守建，宋肖徵，许江，等. 基于综合作用假说煤与瓦斯突出强度影响因素试验[J]. 煤炭科学技术，2016，44(12)：81-84.(PENG Shoujian，SONG Xiaozheng，XU Jiang，et al. Experiment of factors affected to coal and gas outburst intensity based on hypothesis of comprehensive effect[J]. Coal Science and Technology，2016，44(12)：81-84.(in Chinese))
[19]	PATCHING T H，BOTHAM J C. Occurrence，research and control of sudden outbursts of coal and gas in Canada[M]. Ottawa：Queen?s Printer and Controller of Stationery，1967：5-6.
[118]	唐一博，袁亮，薛俊华，等. 基于物理模拟的煤与瓦斯突出主控因素及能量演化过程[J]. 煤矿安全，2017，48(11)：1-4.(TANG Yibo，YUAN Liang，XUE Junhua，et al. Control factors of coal and gas outburst and energy evolution based on physical simulation[J]. Safety in Coal Mines，2017，48(11)：1-4.(in Chinese))
[20]	KUROIWA T，TASHIRO T. Experimental study on coal pulverisation and gas emission in a moment of outbursts of gas and coal[J]. Journal of Japanese Mining，1960，76：227-233.
[86]	TANG J P，ZHANG X，SUN S J，et al. Evolution characteristics of precursor information of coal and gas outburst in deep rock cross-cut coal uncovering[J]. International Journal of Coal Science and Technology，2022，9(1)：5.
[125]	赵艾叶. 波兰煤矿用连续温度监测法预测预报煤与瓦斯突出[J]. 中州煤炭，1994，(6)：46-47.(ZHAO Aiye. Continuous temperature monitoring method of coal and gas outburst forecast in Polish coal mines[J]. Zhongzhou Coal，1994，(6)：46-47.(in Chinese))
[26]	牛国庆，颜爱华，刘明举. 煤与瓦斯突出过程中温度变化的实验研究[J]. 西安科技学院学报，2003，(3)：245-248.(NIU Guoqing，YAN Aihua，LIU Mingju. Experimental study on temperature change during coal and gas outburst[J]. Journal of Xi?an University of Science and Technology，2003，(3)：245-248.(in Chinese))
[87]	唐巨鹏，任凌冉，潘一山，等. 高地应力条件煤与瓦斯突出模拟试验研究[J]. 煤炭科学技术，2022，50(2)：113-121.(TANG Jupeng，REN Lingran，PAN Yishan，et al. Research on simulation test of coal and gas outburst under high ground stress condition[J]. Coal Science and Technology，2022，50(2)：113-121.(in Chinese))
[127]	杨孝波，许江，周斌，等. 煤与瓦斯突出发生前后煤层温度演化规律研究[J]. 采矿与安全工程学报，2021，38(1)：206-214. (YANG Xiaobo，XU Jiang，ZHOU Bin，et al. Evolution law of coal seam temperature before and after coal and gas outburst[J]. Journal of Mining and Safety Engineering，2021，38(1)：206-214.(in Chinese))
[28]	许江，陶云奇，尹光志，等. 煤与瓦斯突出模拟试验台的研制与应用[J]. 岩石力学与工程学报，2008，27(11)：2 354-2 362.(XU Jiang，TAO Yunqi，YIN Guangzhi，et al. Development and application of coal and gas outburst simulation test device[J]. Chinese Journal of Rock Mechanics and Engineering，2008，27(11)：2 354-2 362.(in Chinese))
[91]	俞善炳. 恒稳推进的煤与瓦斯突出[J]. 力学学报，1988，(2)：97-106.(YU Shanbing. Constantly advancing coal and gas outburst[J]. Chinese Journal of Theoretical and Applied Mechanics，1988，(2)：97-106.(in Chinese))
[29]	许江，陶云奇，尹光志，等. 煤与瓦斯突出模拟试验台的改进及应用[J]. 岩石力学与工程学报，2009，28(9)：1 804-1 809.(XU Jiang，TAO Yunqi，YIN Guangzhi，et al. Amelioration and application of coal and gas outburst simulation experiment device[J]. Chinese Journal of Rock Mechanics and Engineering，2009，28(9)：1 804-1 809. (in Chinese))
[134]	苗法田，孙东玲，胡千庭. 煤与瓦斯突出冲击波的形成机理[J]. 煤炭学报，2013，38(3)：367-372.(MIAO Fatian，SUN Dongling，HU Qianting. The formation mechanism of shock waves in the coal and gas outburst process[J]. Journal of China Coal Society，2013，38(3)：367-372.(in Chinese))
[92]	丁晓良，丁雁生，俞善炳. 煤在瓦斯一维渗流作用下的初次破坏[J]. 力学学报，1990，22(2)：154-162.(DING Xiaoliang，DING Yansheng，YU Shanbing. Incipient fracture of coal under one dimensional gas seepage[J]. Chinese Journal of Theoretical and Applied Mechanics，1990，22(2)：154-162.(in Chinese))
[136]	孙东玲，曹偈，熊云威，等. 突出过程中煤-瓦斯两相流运移规律的实验研究[J]. 矿业安全与环保，2017，44(2)：26-30.(SUN Dongling，CAO Jie，XIONG Yunwei，et al. Experimental study on migration rule of coal-gas flow in process of outburst[J]. Minging Safety and Environmental Protection，2017，44(2)：26-30.(in Chinese))
[143]	蒋安飞，孙东玲，刘延保，等. 瓦斯压力对煤与瓦斯突出冲击波传播的影响研究[J]. 矿业安全与环保，2021，48(2)：18-22.(JIANG Anfei，SUN Dongling，LIU Yanbao，et al. Study on the influence of gas pressure on the propagation of coal and gas outburst shock wave[J]. Minging Safety and Environmental Protection，2021，48(2)：18-22. (in Chinese))
[35]	刘东，许江，尹光志，等. 多场耦合煤矿动力灾害大型模拟试验系统研制与应用[J]. 岩石力学与工程学报，2013，32(5)：966-975.(LIU Dong，XU Jiang，YIN Guangzhi，et al. Development and application of multiplied coupling testing system for dynamic disaster in coal mine[J]. Chinese Journal of Rock Mechanics and Engineering，2013，32(5)：966-975.(in Chinese))
[93]	谈庆明，俞善炳，朱怀球，等. 含瓦斯煤在突然卸压下的开裂破坏[J]. 煤炭学报，1997，22(5)：514-518.(TAN Qingming，YU Shanbing，ZHU Huaiqiu，et al. Fracture of coal containing pressurized gas by sudden relieving[J]. Journal of China Coal Society，1997，22(5)：514-518.(in Chinese))
[37]	唐巨鹏，潘一山，杨森林. 三维应力下煤与瓦斯突出模拟试验研究[J]. 岩石力学与工程学报，2013，32(5)：960-965.(TANG Jupeng，PAN Yishan，YANG Senlin. Experimental study of coal and gas outburst under tridimensional stresses[J]. Chinese Journal of Rock Mechanics and Engineering，2013，32(5)：960-965.(in Chinese))
[96]	颜爱华，徐涛. 煤与瓦斯突出的物理模拟和数值模拟研究[J]. 中国安全科学学报，2008，18(9)：37-42.(YAN Aihua，XU Tao. Laboratory experiments and numerical simulation on coal and gas outbursts[J]. China Safety Science Journal，2008，18(9)：37-42.(in Chinese))
[38]	唐巨鹏，杨森林，王亚林，等. 地应力和瓦斯压力作用下深部煤与瓦斯突出试验[J]. 岩土力学，2014，35(10)：2 769-2 774.(TANG Jupeng，YANG Senlin，WANG Yalin，et al. Experiment of coal and gas outbursts under ground stress and gas pressure in deep mines[J]. Rock and Soil Mechanics，2014，35(10)：2 769-2 774.(in Chinese))
[98]	JIANG C L，XU L H，LI X W，et al. Identification model and indicator of outburst-prone coal seams[J]. Rock Mechanics and Rock Engineering，2014，48(1)：409-415.
[145]	唐巨鹏，张昕，潘一山，等. 深部巷道煤与瓦斯突出及冲击演化特征试验研究[J]. 岩石力学与工程学报，2022，41(6)：1 081-1 092. (TANG Jupeng，ZHANG Xin，PAN Yishan，et al. Experimental study on the characteristics of deep coal and gas outburst and impact evolution in roadway[J]. Chinese Journal of Rock Mechanics and Engineering，2022，41(6)：1 081-1 092.(in Chinese))
[99]	XU L H，JIANG C L. Initial desorption characterization of methane and carbon dioxide in coal and its influence on coal and gas outburst risk[J]. Fuel，2017，203：700-706.
[39]	郭品坤. 煤与瓦斯突出层裂发展机制研究[博士学位论文][D]. 徐州：中国矿业大学，2014.(GUO Pinkun. Research on laminar spallation mechanism of coal and outburst propagation[Ph. D. Thesis][D]. Xuzhou：China University of Mining and Technology，2014.(in Chinese))
[100]	张庆贺，王汉鹏，李术才，等. 煤与瓦斯突出物理模拟试验中甲烷相似气体的探索[J]. 岩土力学，2017，38(2)：479-486.(ZHANG Qinghe，WANG Hanpeng，LI Shucai，et al. Exploration of similar gas like methane in physical simulation test of coal and gas outburst[J]. Rock and Soil Mechanics，2017，38(2)：479-486.(in Chinese))
[41]	王雪龙. 基于声发射的煤与瓦斯突出实验研究[硕士学位论文][D]. 太原：太原理工大学，2015.(WANG Xuelong. Based on the acoustic emission of coal and gas outburst experimental study[M. S. Thesis][D]. Taiyuan：Taiyuan University of Technology，2015.(in Chinese))
[103]	吕明哲. 强突出煤层不同含水率条件煤与瓦斯突出试验研究[硕士学位论文][D]. 徐州：中国矿业大学，2020.(LV Mingzhe. Experimental study on coal and gas outburst in strong outburst coal seam with different moisture content[M. S. Thesis][D]. Xuzhou：China University of Mining and Technology，2020.(in Chinese))
[43]	张庆贺. 煤与瓦斯突出能量分析及其物理模拟的相似性研究[博士学位论文][D]. 济南：山东大学，2017.(ZHANG Qinghe. Analysis of coal and gas outburst and research on similarity of physical aimulation for it[Ph. D. Thesis][D]. Jinan：Shandong University，2017.(in Chinese))
[123]	王伟，王汉鹏，张冰，等. 煤与瓦斯突出多因素影响规律与能量判据实验研究[J]. 东北大学学报：自然科学版，2022，43(4)：582-590.(WANG Wei，WANG Hanpeng，ZHANG Bing，et al. Experimental study on multi-factor influence law and energy criterion of coal and gas outburst[J]. Journal of Northeastern University：Natural Science，2022，43(4)：582-590.(in Chinese))
[44]	李术才，李清川，王汉鹏，等. 大型真三维煤与瓦斯突出定量物理模拟试验系统研发[J]. 煤炭学报，2018，43(增1)：121-129.(LI Shucai，LI Qingchuan，WANG Hanpeng，et al. A large-scale three-dimensional coal and gas outburst quantitative physical modeling system[J]. Journal of China Coal Society，2018，43(Supp.1)：121-129.(in Chinese))
[89]	BYKOV L N. Theory and basic principles of mining of seams liable to outburst[J]. ONTI，1936，(3)：30-35.
[126]	许江，周斌，彭守建，等. 基于热-流-固体系参数演变的煤与瓦斯突出能量演化[J]. 煤炭学报，2020，45(1)：213-222.(XU Jiang，ZHOU Bin，PENG Shoujian，et al. Evolution of outburst energy based on development of heat-flow-solids parameters[J]. Journal of China Coal Society，2020，45(1)：213-222.(in Chinese))
[22]	BODZIONY J，NELICKI A，TOPOLNICKI J. Results of laboratory investigations of gas and coal outburst[J]. Archives of Mining Sciences，1989，94(3)：581-591.
[105]	蒋长宝，尹光志，许江，等. 煤层原始含水率对煤与瓦斯突出危险程度的影响[J]. 重庆大学学报，2014，37(1)：91-95.(JIANG Changbao，YIN Guangzhi，XU Jiang，et al. The effect of original moisture content in coal beds on coal and gas outburst risk level[J]. Journal of Chongqing University，2014，37(1)：91-95.(in Chinese))
[128]	任凌冉. 深部煤与瓦斯突出温度和冲击力演化规律研究[硕士学位论文][D]. 阜新：辽宁工程技术大学，2022.(REN Lingran. Study on evolution law of temperature and impact force of coal and gas outburst in deep coal mines[M. S. Thesis][D]. Fuxin：Liaoning Technical University，2022.(in Chinese))
[24]	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.(JIANG Chenglin，YU Qixiang. The hypothesis of spherical shell instability of coal and gas outburst mechanism[J]. Safety in Coal Mines，1995，(2)：17-25.(in Chinese))
[107]	许江，耿加波，彭守建，等. 不同含水率条件下煤与瓦斯突出的声发射特性[J]. 煤炭学报，2015，40(5)：1 047-1 054.(XU Jiang，GENG Jiabo，PENG Shoujian，et al. Acoustic emission characteristics of coal and gas outburst under different water content conditions[J]. Journal of China Coal Society，2015，40(5)：1 047-1 054.(in Chinese))
[31]	高魁，刘泽功，刘健. 基于相似模拟和地质力学模型试验的突出装置研制及应用[J]. 岩土力学，2015，36(3)：711-718.(GAO Kui，LIU Zegong，LIU Jian. Design of outburst experiment device based on similar simulation and geomechanical model test and its application[J]. Rock and Soil Mechanics，2015，36(3)：711-718.(in Chinese))
[130]	张超林，蒲静轩，宋世豪，等. 煤与瓦斯突出两相流研究现状及展望[J/OL]. 煤炭科学技术，DOI：10.13199/j.cnki.cst.2022-1826. (ZHANG Chaolin，PU Jingxuan，SONG Shihao，et al. Research status and prospect of two-phase flow of coal and gas outburst[J/OL]. Coal Science and Technology，DOI：10.13199/j.cnki.cst.2022-1826.(in Chinese))
[108]	唐巨鹏，孙胜杰，丁佳会. 含水率对煤与瓦斯突出能量转化影响试验[J]. 实验力学，2019，34(5)：833-840.(TANG Jupeng，SUN Shengjie，DING Jiahui. Experimental study on the influence of water content on energy conversion of coal and gas outburst[J]. Journal of Experimental Mechanics，2019，34(5)：833-840.(inChinese))
[33]	王刚，程卫民，张清涛，等. 石门揭煤突出模拟实验台的设计与应用[J]. 岩土力学，2013，34(4)：1 202-1 210.(WANG Gang，CHENG Weimin，ZHANG Qingtao，et al. Design of simulation experiment and its application system of outburst in uncovering coal seam in cross-cut[J]. Rock and Soil Mechanics，2013，34(4)：1 202-1 210.(in Chinese))
[132]	杨书召，张瑞林. 煤与瓦斯突出冲击波及瓦斯气流所致伤害研究[J]. 中国安全科学学报，2012，22(11)：62-66.(YANG Shuzhao，ZHANG Ruilin. Research on injuries due to shock wave and gas flow from coaland gas outburst[J]. China Safety Science Journal，2012，22(11)：62-66.(in Chinese))
[109]	吴鑫. 不同煤粉粒径条件下煤与瓦斯突出模拟实验研究[硕士学位论文][D]. 重庆：重庆大学，2010.(WU Xin. Research on simulation experiments on coal and gas outburst in various particle size[M. S. Thesis][D]. Chongqing：Chongqing University，2010.(in Chinese))
[40]	王汉鹏，张庆贺，袁亮，等. 基于CSIRO模型的煤与瓦斯突出模拟系统与试验应用[J]. 岩石力学与工程学报，2015，34(11)：2 301- 2 308.(WANG Hanpeng，ZHANG Qinghe，YUAN Liang，et al. Coal and gas outburst simulation system based on CSIRO model[J]. Chinese Journal of Rock Mechanics and Engineering，2015，34(11)：2 301-2 308.(in Chinese))
[135]	孙东玲，胡千庭，苗法田. 煤与瓦斯突出过程中煤-瓦斯两相流的运动状态[J]. 煤炭学报，2012，37(3)：452-458.(SUN Dongling，HU Qianting，MIAO Fatian. Motion state of coal-gas flow in the process of outburst[J]. Journal of China Coal Society，2012，37(3)：452-458.(in Chinese))
[42]	张淑同. 煤与瓦斯突出模拟的材料及系统相似性研究[博士学位论文][D]. 淮南：安徽理工大学，2015.(ZHANG Shutong. Research on similarity of material and system for coal and gas outburst simulation test[Ph. D. Thesis][D]. Huainan：Anhui University of Science and Technology，2015.(in Chinese))
[137]	孙东玲，曹偈，苗法田，等. 突出煤-瓦斯在巷道内的运移规律[J]. 煤炭学报，2018，43(10)：2 773-2 779.(SUN Dongling，CAO Jie，MIAO Fatian，et al．Migration law of outburst coal and gas in roadway[J]. Journal of China Coal Society，2018，43(10)：2 773-2 779. (in Chinese))
[49]	袁亮，王伟，王汉鹏，等. 巷道掘进揭煤诱导煤与瓦斯突出模拟试验系统[J]. 中国矿业大学学报，2020，49(2)：205-214.(YUAN Liang，WANG Wei，WANG Hangpeng，et al. A simulation system for coal and gas outburst induced by coal uncovering in roadway exaction[J]. Journal of China University of Mining and Technology，2020，49(2)：205-214.(in Chinese))
[139]	王凯，周爱桃，魏高举，等. 直巷道中突出冲击气流的形成及传播特征研究[J]. 采矿与安全工程学报，2012，29(4)：559-563. (WANG Kai，ZHOU Aitao，WEI Gaojun，et al. Study of formation and propagation characteristics of shock wave and gas flow of outburst at straight roadway[J]. Journal of Mining and Safety Engineering，2012，29(4)：559-563.(in Chinese))
[51]	张超林，王恩元，王奕博，等. 多功能煤与瓦斯突出模拟试验系统研制与应用[J]. 岩石力学与工程学报，2022，41(5)：995-1 007. (ZHANG Chaolin，WANG Enyuan，WANG Yibo，et al. Development and application of multi-functional test system for coal and gas outburst simulation[J]. Chinese Journal of Rock Mechanics and Engineering，2022，41(5)：995-1 007.(in Chinese))
[141]	王良成，石必明，刘义，等. 煤与瓦斯突出两相流运移衰减规律实验研究[J]. 煤矿安全，2022，53(11)：36-41.(WANG Liangcheng，SHI Biming，LIU Yi，et al. Experimental study on migration attenuation law of two-phase flow in coal and gas outburst[J]. Safety in Coal Mines，2022，53(11)：36-41.(in Chinese))
[58]	王汉鹏，张玉强，袁亮，等. 煤粒初始释放瓦斯膨胀能的影响规律与温度效应分析[J]. 采矿与安全工程学报，2019，36(5)：1 052-1 060.(WANG Hanpeng，ZHANg Yuqiang，YUAN Liang，et al. Analysis of influence law and temperature effect of initial released gas expansion energy of the coal grain[J]. Journal of Mining and Safety Engineering，2019，36(5)：1 052-1 060.(in Chinese))
[144]	杨雪林. 巷道煤与瓦斯突出抛出物动力学特征研究[博士学位论文][D]. 重庆：重庆大学，2021.(YANG Xuelin. Study on dynamic characteristics of coal and gas outburst ejecta in roadway[Ph. D. Thesis][D]. Chongqing：Chongqing University，2021.(in Chinese))
[67]	TU Q Y，CHENG Y P，GUO P K，et al. Experimental study of coal and gas outbursts related to gas-enriched areas[J]. Rock Mechanics and Rock Engineering，2016，49(9)：3 769-3 781.
[146]	许江，程亮，周斌，等. 突出过程中煤-瓦斯两相流运移的物理模拟研究[J]. 岩石力学与工程学报，2019，38(10)：1 945-1 953. (XU Jiang，CHENG Liang，ZHOU Bin，et al. Physical simulation of coal-gas two-phase flow migration in coal and gas outburst[J]. Chinese Journal of Rock Mechanics and Engineering，2019，38(10)：1 945-1 953.(in Chinese))
[85]	彭守建，杨文健，周斌，等. 真三维应力状态下煤与瓦斯突出过程中瓦斯压力时空演化规律研究[J]. 岩石力学与工程学报，2020，39(9)：1 762-1 772.(PENG Shoujian，YANG Wenjian，ZHOU Bin，et al. Study on the evolution law of gas pressure in the process of coal and gas outburst under true triaxial stresses[J]. Chinese Journal of Rock Mechanics and Engineering，2020，39(9)：1 762-1 772.(in Chinese))
[148]	许江，程亮，彭守建，等. 巷道结构对突出流体冲击特性的影响性试验研究[J]. 煤炭学报，2023，48(1)：238-250.(XU Jiang，CHENG Liang，PENG Shoujian，et al. Experimental study on the influence of roadway structure on outburst fluid impact characteristics[J]. Journal of China Coal Society，2023，48(1)：238-250.(in Chinese))
[94]	郑哲敏. 从数量级和量纲分析看煤与瓦斯突出的机理[C]// 郑哲敏文集. 北京：科学出版社，2004：416-426.(ZHENG Zhemin. Study on mechanism of coal and gas outburst by magnitude order and dimensional analysis[C]// Collects Works of ZHENG Zhemin. Beijing：Science Press，2004：416-426.(in Chinese))
[150]	ZHANG C L，WANG Y B，WANG E Y，et al. Influence of coal seam gas pressure on the propagation mechanism of outburst two-phase flow in visual roadway[J]. Fuel，2022，322：124 296.
[101]	陈结，潘孝康，姜德义，等. 考虑气体压力的三轴煤与瓦斯突出模拟实验[J]. 采矿与安全工程学报，2019，36(4)：841-847.(CHEN Jie，PAN Xiaokang，JIANG Deyi，et al. Simulation experiment on triaxial coal and gas outburst under gaspressure[J]. Journal of Mining and Safety Engineering，2019，36(4)：841-847.(in Chinese))
[45]	陈结，潘孝康，姜德义，等. 基于气体驱动煤与瓦斯突出试验系统的研制与应用[J]. 煤炭学报，2018，43(增2)：460-468.(CHEN Jie，PAN Xiaokang，JIANG Deyi，et al. Development and application of coal and gas outburst test system based on gas driven[J]. Journal of China Coal Society，2018，43(Supp.2)：460-468.(in Chinese))
[46]	丁佳会. 基于声发射监测的煤与瓦斯突出前兆规律研究[硕士学位论文][D]. 阜新：辽宁工程技术大学，2018.(DING Jiahui. Research on the precursor of coal and gas based on acoustic launch monitoring[M. S. Thesis][D]. Fuxin：Liaoning Technical University，2018.(in Chinese))
[47]	聂百胜，马延崑，孟筠青，等. 中等尺度煤与瓦斯突出物理模拟装置研制与验证[J]. 岩石力学与工程学报，2018，37(5)：1 218-1 225. (NIE Baisheng，MA Yankun，MENG Junqing，et al. Middle scale simulation system of coal and gas outburst[J]. Chinese Journal of Rock Mechanics and Engineering，2018，37(5)：1 218-1 225.(in Chinese))
[48]	NIE B S，MA Y K，HU S T，et al. Laboratory study phenomenon of coal and gas outburst based on a mid-scale simulation system[J]. Scientific Reports，2019，9(1)：15 005.
[50]	卢义玉，彭子烨，夏彬伟，等. 深部煤岩工程多功能物理模拟实验系统——煤与瓦斯突出模拟实验[J]. 煤炭学报，2020，45(增1)：272-283.(LU Yiyu，PENG Ziye，XIA Binwei，et al. Multi-functional physical model testing system of deep coal petrography engineering[J]. Journal of China Coal Society，2020，45(Supp.1)：272-283.(in Chinese))
[53]	BODZIONY J，KRAWCZYK J，TOPOLNICKI J. Determination of the porosity distribution in coal briquettes by measurements of the gas filtration parameters in an outburst pipe[J]. International Journal of Rock Mechanics and Mining Sciences and Geomechanics Abstracts，1994，31(6)：661-669.
[56]	许江，周文杰，刘东，等. 采动影响下突出煤体温度与声发射特性[J]. 煤炭学报，2013，38(2)：239-244.(XU Jiang，ZHOU Wenjie，LIU Dong，et al. Temperature and acoustic emission characteristics of coal in the process of outburst under the influence of mining[J]. Journal of China Coal Society，2013，38(2)：239-244.(in Chinese))
[57]	唐巨鹏，丁佳会，于宁，等. 有效应力对石门揭煤突出影响分析和试验研究[J]. 岩石力学与工程学报，2018，37(2)：282-290.(TANG Jupeng，DING Jiahui，YU Ning，et al. Analysis and experimental study on the effect of effective stress on coal and gas outburst in crosscutting[J]. Chinese Journal of Rock Mechanics and Engineering，2018，37(2)：282-290.(in Chinese))
[59]	LIU Z Z，WANG H P，ZHANG B，et al. Study on the law of initial gas expansion energy and its feasibility in coal and gas outburst prediction[J]. Environmental Science and Pollution Research，2023，30(21)：60 121-60 128.
[62]	ALEXEEV A D，REVVA V N，ALYSHEV N A，et al. True triaxial loading apparatus and its application to coal outburst prediction[J]. International Journal of Coal Geology，2004，58(4)：245-250.
[64]	ZHOU B，XU J，PENG S J，et al. Test system for the visualization of dynamic disasters and its application to coal and gas outburst[J]. International Journal of Rock Mechanics and Mining Sciences，2019，122：104 083.
[65]	杨孝波. 煤与瓦斯突出过程中煤体动态响应及其煤-瓦斯两相流运移的物理模拟试验研究[硕士学位论文][D]. 重庆：重庆大学，2020.(YANG Xiaobo. Physical simulation test study of coal mass dynamic response and coal-gas two-phase flow migration during coal and gas outburst[M. S. Thesis][D]. Chongqing：Chongqing University，2020.(in Chinese))
[52]	杨雪林，文光才，孙海涛，等. 煤与瓦斯突出冲击动力效应及致灾特征模拟实验系统研制与应用[J/OL]. 煤炭学，DOI：10.13225/j.cnki.jccs.2022.1318. (YANG Xuelin，WEN Guangcai，SUN Haitao，et al. Development and application of simulation experimental system for impactive dynamic effect and disaster-causing characteristics of coal and gas outburst[J/OL]. Journal of China Coal Society，DOI：10.13225/j.cnki.jccs.2022.1318.(in Chinese))
[60]	王雪龙，冯增朝，李慧，等. 三轴加载下煤与瓦斯突出声发射可靠性分析[J]. 煤矿安全，2015，46(8)：160-163.(WANG Xuelong，FENG Zengchao，LI Hui，et al. Reliability analysis of acoustic emission for coal and gas outburst under triaxial loading[J]. Safety in Coal Mines，2015，46(8)：160-163.(in Chinese))
[66]	张超林，许江，王恩元，等. 突出煤体破碎抛出及粒度分布规律试验研究[J]. 中国矿业大学学报，2021，50(4)：784-792.(ZHANG Chaolin，XU Jiang，WANG Enyuan，et al. Experimental study of breaking characteristics and particle size distribution of ejected coal after outburst[J]. Journal of China University of Mining and Technology，2021，50(4)：784-792.(in Chinese))
[69]	CAO J，SUN H T，WANG B，et al. A novel large-scale three-dimensional apparatus to study mechanisms of coal and gas outburst[J]. International Journal of Rock Mechanics and Mining Sciences，2019，118：52-62.
[71]	LU Y Y，WANG H Y，XIA B W，et al. Development of a multi-functional physical model testing system for deep coal petrography engineering[J]. Rock Mechanics and Rock Engineering，2017，50(2)：269-283.
[73]	WANG H P，ZHANG B，YUAN L，et al. Analysis of precursor information for coal and gas outbursts induced by roadway tunneling：A simulation test study for the whole process[J]. Tunnelling and Underground Space Technology，2022，122：104 349.
[74]	唐巨鹏，郝娜，潘一山，等. 基于声发射能量分析的煤与瓦斯突出前兆特征试验研究[J]. 岩石力学与工程学报，2021，40(1)：31-42.(TANG Jupeng，HAO Na，PAN Yishan，et al. Experimental study on precursor characteristics of coal and gas outbursts based on acoustic emission energy analysis[J]. Chinese Journal of Rock Mechanics and Engineering，2021，40(1)：31-42.(in Chinese))
[75]	唐巨鹏，任凌冉，潘一山，等. 深部煤与瓦斯突出孕育全过程声发射前兆信号变化规律研究[J]. 实验力学，2021，36(6)：827-837.(TANG Jupeng，REN Lingran，PAN Yishan，et al. Study on the variation rule of acoustic emission precursor signal of deep coal and gas outburst process[J]. Journal of Experimental Mechanics，2021，36(6)：827-837.(in Chinese))
[78]	PESCOD R. Rock bursts in the western portions of the South Wales coalfield[J]. The Institute of Mining Engineerings，1947，107：512-549.
[80]	于不凡. 煤和瓦斯突出与地应力的关系[J]. 工业安全与防尘，1985，(3)：2-6.(YU Bufan. Study on the relationship between rock stress and outbursts of coal and gas[J]. Industrial Safety and Environmental Protection，1985，(3)：2-6.(in Chinese))
[82]	邢跃强，程远平，涂庆毅，等. 突出煤体空间分布及粒径分布特性试验分析[J]. 西安科技大学学报，2018，38(3)：411-416.(XING Yueqiang，CHENG Yuanping，TU Qingyi，et al．Experimental study on the spatial distribution characteristics of outburst coal[J]. Journal of Xi?an University of Science and Technology，2018，38(3)：411-416.(in Chinese))
[83]	许江，耿加波，彭守建，等. 煤与瓦斯突出脉动式发展过程的试验研究[J]. 中国矿业大学学报，2018，47(1)：145-154.(XU Jiang，GENG Jiabo，PENG Shoujian，et al. Analysis of the pulsating development process of coal and gas outburst[J]. Journal of China University of Minging and Technology，2018，47(1)：145-154.(in Chinese))
[84]	赵博. 应力主导的煤与瓦斯突出模拟实验研究[博士学位论文][D]. 重庆：重庆大学，2020.(ZHAO Bo. Experimental study on coal and gas outburst based on leading geo-stress[Ph. D. Thesis][D]. Chongqing：Chongqing University，2020.(in Chinese))