Strata movement and stress evolution when mining two overlapping panels affected by hard stratum 被引量：5

下载PDF

导出

摘要 Mining causes stress redistribution and stratum movement.In this paper,a numerical model was built according to the geological conditions in the 12th coal mine in Pingdingshan city to study the strata movement and the evolution of stress when mining two overlapping longwall panels,named panels#14 and#15.The strata close to the mined panel move directly towards the gob,while the strata that are farther away swing back and forth during the mining process.The directed movement and swinging can break the transverse boreholes for gas extraction;a surface borehole should not be within the range of directional movement.The stress evolution suggested that the mining of the lower panel#15 after the upper panel#14 would further increase the de-stressed range,while the stress concentration around the mined panel would be increased.Hard strata usually carry a greater stress than adjacent rocks and soft coal seams.The stress in a hard stratum increases greatly,and the stress decreases greatly in the coal seams below the hard stratum.This study supplies a reference for similar coal mines and is useful for determining the de-stressed range and transverse borehole arrangement for gas extraction.

作者 Jianguo Zhang Wei Yang Baiquan Lin Jinjing Zhang Man Wang

机构地区 State Key Laboratory of Coking Coal Exploitation and Comprehensive Utilization Key Laboratory of Gas and Fire Control for Coal Mines(China University of Mining and Technology) China Pingmei Shenma Group School of Safety Engineering

出处《International Journal of Mining Science and Technology》 SCIE EI CSCD 2019年第5期691-699,共9页 矿业科学技术学报（英文版）

基金 the National Key R&D Program of China(No.2016YFC0801402) the National Natural Science Foundation of China(No.51874291).

关键词 STRATUM movement MINING LONGWALL panel HARD STRATUM

分类号 TD325 [矿业工程—矿井建设]

引文网络
相关文献

参考文献5

1zhang peter,peterson scott,neilans dan,wade scott,mc grady ryan,pugh joe.Geotechnical risk management to prevent coal outburst in room-and-pillar mining[J].International Journal of Mining Science and Technology,2016,26(1):9-18. 被引量：9
2lannacchione Anthony T.,Tadolini Stephen C..Occurrence, predication, and control of coal burst events in the U.S.[J].International Journal of Mining Science and Technology,2016,26(1):39-46. 被引量：13
3Li Teng,Mu Zonglong,Liu Guangjian,Du Junliu,Lu Hao.Stress spatial evolution law and rockburst danger induced by coal mining in fault zone[J].International Journal of Mining Science and Technology,2016,26(3):409-415. 被引量：7
4张强,张吉雄,康涛,孙强,李伟康.Mining pressure monitoring and analysis in fully mechanized backfilling coal mining face-A case study in Zhai Zhen Coal Mine[J].Journal of Central South University,2015,22(5):1965-1972. 被引量：16
5Mark Christopher,Gauna Michael.Evaluating the risk of coal bursts in underground coal mines[J].International Journal of Mining Science and Technology,2016,26(1):47-52. 被引量：20

二级参考文献96

1张吉雄,吴强,黄艳利,周跃进.矸石充填综采工作面矿压显现规律[J].煤炭学报,2010,35(S1):1-4. 被引量：61
2姜耀东,王涛,陈涛,白兴平,谢帅涛.“两硬”条件正断层影响下的冲击地压发生规律研究[J].岩石力学与工程学报,2013,32(S2):3712-3718. 被引量：27
3王宏伟,姜耀东,高仁杰,刘帅.长壁孤岛工作面冲击失稳能量场演化规律[J].岩土力学,2013,34(S1):479-485. 被引量：18
4Peng S. Coal mining ground control. West Virginia University; 2008. p. 3.
5Newman D. Coal mine bumps: case histories of analysis and avoidance. In: Proceedings of the 27th international conference on ground control in mining. Morgantown: West Virginia University; 2008. p. 1-6.
6lannacchione A, Tadolini S. Coal mine burst prevention controls. In: Proceedings of the 27th international conference on ground control in mining. Morgantown: West Virginia University; 2008. p. 20-8.
7Gauna M, Phillipson S. Evaluation of multiple seam interaction coal pillar bump. In: Proceedings of the 27th international conference on ground control in mining. Morgantown: West Virginia University; 2008. p. 51-9.
8Hoelle N. Coal bumps in an eastern Kentucky coal mine 1989-1997. In: Proceedings of the 27th international conference on ground control in mining. Morgantown: West Virginia University; 2008. p. 14-9.
9Newman D. A case history investigation of two coal bumps in the southern Appalachian coal field. In: Proceedings of the 21th international conference on ground control in mining. Morgantown: West Virginia University; 2002. p. 90-7.
10Holland CT, Thomas E. Coal-mine bumps: some aspects of occurrence, cause and control. US Bureau of Mines Bulletin 535; 1954. p. 37.

共引文献54

1Sun Qiang,Zhang Jixiong,Ju Feng,Li Linyue,Zhao Xu.Research and application of schemes for constructing concrete pillars in large section finishing cut in backfill coal mining[J].International Journal of Mining Science and Technology,2015,25(6):915-920. 被引量：3
2韩军.煤矿冲击地压地质动力环境研究[J].煤炭科学技术,2016,44(6):83-88. 被引量：17
3闫浩,张吉雄,张强,董祥俭,韩晓乐.巨厚火成岩下采动覆岩应力场-裂隙场耦合演化机制[J].煤炭学报,2016,41(9):2173-2179. 被引量：21
4李猛,张吉雄,黄鹏,高瑞.Mass ratio design based on compaction properties of backfill materials[J].Journal of Central South University,2016,23(10):2669-2675. 被引量：1
5李猛,张吉雄,邓雪杰,周楠,张强.含水层下固体充填保水开采方法与应用[J].煤炭学报,2017,42(1):127-133. 被引量：30
6汪莹,蒋高鹏.RS-SVM组合模型下煤矿安全风险预测[J].中国矿业大学学报,2017,46(2):423-429. 被引量：23
7Hebblewhite Bruce,Calvin Jim.A review of the geomechanics aspects of a double fatality coal burst at Austar Colliery in NSW,Australia in April 2014[J].International Journal of Mining Science and Technology,2017,27(1):3-7. 被引量：12
8Zhang Jixiong,Zhang Qiang,Spearing A.J.S.(Sam),Miao Xiexing,Guo Shuai,Sun Qiang.Green coal mining technique integrating mining-dressing-gas draining-backfilling-mining[J].International Journal of Mining Science and Technology,2017,27(1):17-27. 被引量：19
9Zhang Chengguo,Canbulat Ismet,Tahmasebinia Faham,Hebblewhite Bruce.Assessment of energy release mechanisms contributing to coal burst[J].International Journal of Mining Science and Technology,2017,27(1):43-47. 被引量：10
10Lawson Heather E.,Tesarik Douglas,Larson Mark K,Abraham Habte.Effects of overburden characteristics on dynamic failure in underground coal mining[J].International Journal of Mining Science and Technology,2017,27(1):121-129. 被引量：7

同被引文献111

1吴立新,王金庄.煤柱屈服区宽度计算及其影响因素分析[J].煤炭学报,1995,20(6):625-631. 被引量：52
2潘兵,谢惠民,续伯钦,戴福隆.数字图像相关中的亚像素位移定位算法进展[J].力学进展,2005,35(3):345-352. 被引量：89
3王金安,焦申华,谢广祥.综放工作面开采速率对围岩应力环境影响的研究[J].岩石力学与工程学报,2006,25(6):1118-1124. 被引量：71
4宋振骐,蒋金泉.煤矿岩层控制的研究重点与方向[J].岩石力学与工程学报,1996,15(2):128-134. 被引量：61
5谢广祥,常聚才,华心祝.开采速度对综放面围岩力学特征影响研究[J].岩土工程学报,2007,29(7):963-967. 被引量：88
6何满潮,李国峰,任爱武,杨军.深部软岩巷道立体交叉硐室群稳定性分析[J].中国矿业大学学报,2008,37(2):167-170. 被引量：78
7李肖音,高峰,钟卫平.基于板模型的采场顶板破断机理分析[J].采矿与安全工程学报,2008,25(2):180-183. 被引量：34
8康红普,王金华,林健.煤矿巷道锚杆支护应用实例分析[J].岩石力学与工程学报,2010,29(4):649-664. 被引量：719
9康红普,司林坡,苏波.煤岩体钻孔结构观测方法及应用[J].煤炭学报,2010,35(12):1949-1956. 被引量：103
10钱鸣高.采场围岩控制理论与实践[J].矿山压力与顶板管理,1999(3):12-15. 被引量：22

引证文献5

1Mingzhong Gao,Jing Xie,Yanan Gao,Wenyong Wang,Cong Li,Bengao Yang,Junjun Liu,Heping Xie.Mechanical behavior of coal under different mining rates:A case study from laboratory experiments to field testing[J].International Journal of Mining Science and Technology,2021,31(5):825-841. 被引量：52
2李猛,张吉雄,黄鹏,王佳奇,王昱尧.深部矸石充填采场顶板下沉控制因素及影响规律研究[J].采矿与安全工程学报,2022,39(2):227-238. 被引量：15
3HUO Shusen,TAO Zhigang,LIU Keyuan,LI Yong,HE Manchao.Physical model of overlying rock movement law in Yuwang coal mine[J].Journal of Mountain Science,2024,21(12):4323-4344. 被引量：2
4郭飞,吴少康,唐东旭,简丰坝,杨如欣.小煤柱工作面巷道变形机理与治理技术研究综述[J].矿产保护与利用,2025,45(2):53-63. 被引量：8
5陈杰.基于FLAC3D模拟的不同锚杆长度对巷道支护效果的影响[J].科技和产业,2025,25(15):30-36.

二级引证文献77

1Jia-Nan Li,Jun Wang,Yun-Qi Hu,Zhen-Xi You,Meng Xu,Ying-Wei Wang,Zu-Jie Zou,Qi-Yue Kang.Contact performance analysis of pressure controller's sealing interface in deep in-situ pressure-preserved coring system[J].Petroleum Science,2022,19(3):1334-1346. 被引量：3
2Liang-Yu Zhu,Tao Liu,Zhi-Yu Zhao,Yi-Fan Wu,Dong-Sheng Yang,Xiang-Chao Shi,Zhi-Qiang Liu,Fei-Fei Lu,Pei Qin,Xiao-Liang Gao.Deep original information preservation by applying in-situ film formation technology during coring[J].Petroleum Science,2022,19(3):1322-1333. 被引量：1
3Wei Huang,Gan Feng,Hui-Lan He,Jian-Zhong Chen,Jiu-Quan Wang,Zhao Zhao.Development of an ultra-high-pressure rotary combined dynamic seal and experimental study on its sealing performance in deep energy mining conditions[J].Petroleum Science,2022,19(3):1305-1321. 被引量：5
4Yun-Qi Hu,Jing Xie,Shou-Ning Xue,Meng Xu,Cheng-Hang Fu,Hui-Lan He,Zhi-Qiang Liu,Shao-Ming Ma,Si-Qing Sun,Chuan-Liu Wang.Research and application of thermal insulation effect of natural gas hydrate freezing corer based on the wireline-coring principle[J].Petroleum Science,2022,19(3):1291-1304. 被引量：4
5Ming-Zhong Gao,Ben-Gao Yang,Jing Xie,Si-Qi Ye,Jun-Jun Liu,Yi-Ting Liu,Rui-Feng Tang,Hai-Chun Hao,Xuan Wang,Xiang-Yue Wen,Xue-Min Zhou.The mechanism of microwave rock breaking and its potential application to rock-breaking technology in drilling[J].Petroleum Science,2022,19(3):1110-1124. 被引量：16
6Cong Li,Jian-Liang Pei,Nian-Han Wu,Gui-Kang Liu,Wei Huang,Zhi-Xu Dai,Rui-Ze Wang,Zhao-Fan Chen,Wei-Cheng Long.Rotational failure analysis of spherical-cylindrical shell pressure controllers related to gas hydrate drilling investigations[J].Petroleum Science,2022,19(2):789-799. 被引量：3
7Zhi-Qiang He,Yang Yang,Bo Yu,Jian-Ping Yang,Xiang-Biao Jiang,Bo Tian,Man Wang,Xi-Yuan Li,Si-Qing Sun,Hui Sun.Research on properties of hollow glass microspheres/epoxy resin composites applied in deep rock in-situ temperature-preserved coring[J].Petroleum Science,2022,19(2):720-730. 被引量：3
8宫凤强,潘俊锋,江权.岩爆和冲击地压的差异解析及深部工程地质灾害关键机理问题[J].工程地质学报,2021,29(4):933-961. 被引量：64
9谢晶,高明忠,张盛,付成行,彭高友,刘军军.深部煤岩三轴破断行为与能量释放的加载率效应试验研究[J].中南大学学报（自然科学版）,2021,52(8):2713-2724. 被引量：11
10高明忠,王明耀,谢晶,李欣凯,王英伟,王飞,杨本高,张朝鹏,刘军军.不同卸载速率下煤岩采动力学响应试验研究[J].工程科学与技术,2021,53(6):54-63. 被引量：15

1O. O. Oluwole,J. S. Joshua,H. O. Nwagwo.Finite Element Modeling Of Low Heat Conducting Building Bricks[J].Journal of Minerals and Materials Characterization and Engineering,2012,11(8):800-806. 被引量：1
2Yang ZHOU,Yang ZHANG,Xinrong SU,Xin YUAN.Effect of inlet rotating swirl on endwall film cooling for two representative hole arrangements[J].Chinese Journal of Aeronautics,2018,31(5):1095-1108. 被引量：10
3WANG Wanxia,LIU Mingxing.Preparation and Characterization of Carboxyl Functionalized Fluorescent Mesoporous Silica Nanoparticles Containing 8-Hydroxyquinolinate Zinc Complexes[J].Journal of Wuhan University of Technology(Materials Science),2019,34(4):973-978. 被引量：1
4Ji Jing.Turning the Tide[J].Beijing Review,2020,63(12):26-27.
5Guorui Feng,Pengfei Wang.Stress environment of entry driven along gob-side through numerical simulation incorporating the angle of break[J].International Journal of Mining Science and Technology,2020,30(2):189-196. 被引量：10
6Bonan Wang,Faning Dang,Wei Chao,Yanping Miao,Jun Li,Fei Chen.Surrounding rock deformation and stress evolution in pre-driven longwall recovery rooms at the end of mining stage[J].International Journal of Coal Science & Technology,2019,6(4):536-546. 被引量：4
7ZHENG Xinguo,LIU Yaxun,ZHANG Jinyong,REN Lin,WANG Weimin.Effect of Cellular Structure on Mechanical Properties of Polyurethane Foam Curing Materials[J].Journal of Wuhan University of Technology(Materials Science),2019,34(6):1371-1375. 被引量：3
8Shengqiang Yang,Xincheng Hu,Wei Victor Liu,Jiawen Cai,Xiuhong Zhou.Spontaneous combustion influenced by surface methane drainage and its prediction by rescaled range analysis[J].International Journal of Mining Science and Technology,2018,28(2):215-221. 被引量：1
9Doone Silver Kerr,coco(编译),Edmund Sumner(摄).更精准的设计伦敦STOW-AWAY集装箱酒店[J].室内设计与装修,2020,0(2):10-11.
10ZHAO Yue-wen,WANG Xiu-yan,LIU Chang-li,LI Bing-yan.Finite-difference model of land subsidence caused by cluster loads in Zhengzhou,China[J].Journal of Groundwater Science and Engineering,2020,8(1):43-56. 被引量：2

International Journal of Mining Science and Technology

2019年第5期

浏览历史

内容加载中请稍等...