Research on control effect of long anchorage and pressure relief synergistic control in deep and strong mining roadway

JIN Shengyao; CUI Qi; DENG Jinping; YANG Xingguo; WANG Sujian; ZHAO Shifan; LIU Wenjing

Safety in Coal Mines > 2022 > 53(1): 110-115.

JIN Shengyao, CUI Qi, DENG Jinping, YANG Xingguo, WANG Sujian, ZHAO Shifan, LIU Wenjing. Research on control effect of long anchorage and pressure relief synergistic control in deep and strong mining roadway[J]. Safety in Coal Mines, 2022, 53(1): 110-115.

Citation:

PDF (3374 KB)

Research on control effect of long anchorage and pressure relief synergistic control in deep and strong mining roadway

More Information

Published Date: January 19, 2022

Graphical Abstract

Abstract

Abstract

In view of the serious deformation of surrounding rock of deep strong mining roadway, this paper takes 4203 return airway in Jianxin Mine as the engineering background, and uses FLAC_3D numerical simulation software to simulate the stress distribution law of roadway and the deformation law of surrounding rock of roadway after three schemes of “short bolt + long anchor cable”, “long bolt + short anchor cable” and “long bolt + short anchor cable + pressure relief” are adopted when the roadway is disturbed by tunneling and secondary mining. The results show that increasing the bolt length can effectively reduce the roof deformation, and pressure relief can effectively improve the stress environment of roadway surrounding rock. The experimental section was set up in 4203 return airway, which proved that the collaborative control of long anchorage and pressure relief had obvious effect on the control of roadway deformation and the improvement of stress environment.
- strong mining,
- long anchorage,
- pressure relief,
- stress distribution,
- numerical simulation,
- surrounding rock control

FullText(HTML)

References (14)

References

[1]	康红普，王金华．煤巷锚杆支护理论与成套技术[Ｍ]．北京：煤炭工业出版社，2007.
[2]	牛宗涛，张立文，崔佳佳．高应力软弱围岩回采巷道破坏机理及控制[J]．煤矿安全，2018，49（4）：140－143. NIU Zongtao, ZHANG Liwen, CUI Jiajia. Damage mechanism and control of mining roadway in high stress and weak surrounding rock[J]. Safety in Coal Mines, 2018, 49（4）: 140-143.
[3]	侯朝炯．深部巷道围岩控制的关键技术研究[J]．中国矿业大学学报，2017，46（5）：970－978. HOU Chaojiong. Key technologies for surrounding rock control in deep roadway[J]. Journal of China University of Mining & Technology, 2017, 46（5）: 970-978.
[4]	黄炳香，张农，靖洪文，等．深井采动巷道围岩流变和结构失稳大变形理论[J]．煤炭学报，2020，45（3）：911－926. HUANG Bingxiang, ZHANG Nong, JING Hongwen, et al. Large deformation theory of rheology and structural instability of the surrounding rock in deep mining roadway[J]. Journal of China Coal Society, 2020, 45（3）: 911-926.
[5]	何满潮，谢和平，彭苏萍，等．深部开采岩体力学研究[J]．岩石力学与工程学报，2005（16）：2803－2813. HE Manchao, XIE Heping, PENG Suping, et al. Study on rock mechanics in deep mining engineering[J]. Chinese Journal of Rock Mechanics and Engineering, 2005（16）: 2803-2813.
[6]	李可，张进红，张开智，等．高地应力区域动载扰动诱发深埋巷道冲击致灾机理研究[J]．煤矿安全，2017， 48（7）：52－56. LI Ke, ZHANG Jinhong, ZHANG Kaizhi, et al. Study on mechanism of deep roadway rock burst induced by dynamic load in high ground stress region[J]. Safety in Coal Mines, 2017, 48（7）: 52-56.
[7]	罗超文，李海波，刘亚群．煤矿深部岩体地应力特征及开挖扰动后围岩塑性区变化规律[J]．岩石力学与工程学报，2011，30（8）：1613－1618. LUO Chaowen, LI Haibo, LIU Yaqun. Characteristics of in-situ stress and variation law of plastic zone surrounding rocks around deep tunnels in a coal mine[J]. Chinese Journal of Rock Mechanics and Engineering, 2011, 30（8）: 1613-1618.
[8]	魏夕合，王平，翟潘，等．深部软岩巷道失稳原因与高强全锚注支护试验[J]．煤矿安全，2018，49（11）：69. WEI Xihe, WANG Ping, ZHAI Pan, et al. Reason of instability of deep soft rock roadway and test of high strength and full anchor support[J]. Safety in Coal Mines, 2018, 49（11）: 69.
[9]	杜贝举，刘长友，吴锋锋，等．深井高应力软弱围岩巷道变形机理及控制研究[J]．采矿与安全工程学报，2020，37（6）：1123－1132. DU Beiju, LIU Changyou, WU Fengfeng, et al. Deformation mechanism and control technology of roadway in deep mine with high stress and weak surrounding rock[J]. Journal of Mining & Safety Engineering, 2020, 37（6）: 1123-1132.
[10]	王庆牛，杨张杰，王威．预应力锚注技术在深井高应力巷道修复中的应用[J]．煤炭工程，2018，50（3）：47－49. WANG Qingniu, YANG Zhangjie, WANG Wei. Application of pre-stressed bolt-grouting technology for high-stress roadway repairing in deep mine[J]. Coal Engineering, 2018, 50（3）: 47-49.
[11]	王猛，王襄禹，肖同强．深部巷道钻孔卸压机理及关键参数确定方法与应用[J]．煤炭学报，2017，42（5）：1138－1145. WANG Meng, WANG Xiangyu, XIAO Tongqiang. Borehole destressing mechanism and determination method of itskey parameters in deep roadway[J]. Journal of China Coal Society, 2017, 42（5）: 1138-1145.
[12]	王卫军，袁超，余伟健，等．深部高应力巷道围岩预留变形控制技术[J]．煤炭学报，2016，41（9）：2156. WANG Weijun, YUAN Chao, YU Weijian, et al. Control technology of reserved surrounding rock deformation in deep roadway under high stress[J]. Journal of China Coal Society, 2016, 41（9）: 2156-2164.
[13]	李彦斌，任杰，林启祥．深部高应力软岩巷道刚柔耦合支护技术研究[J]．煤炭技术，2019，38（10）：1－4. LI Yanbin, REN Jie, LIN Qixiang. Study on support technology of deep high stress soft rock roadway[J]. Coal Technology, 2019, 38（10）: 1-4.
[14]	王琦，张朋，蒋振华，等．深部高强锚注切顶自成巷方法与验证[J]．煤炭学报，2021，46（2）：382－397. WANG Qi, ZHANG Peng, JIANG Zhenhua, et al. Automatic roadway formation method by roof cutting with high strength bolt-grouting in deep coal mine and its validation[J]. Journal of China Coal Society, 2021, 46（2）: 382-397.

[1]	SHAO Liangshan, YU Baocai, CHEN Xiaoyong. Key Technology of Mine Intelligent Ventilation[J]. Safety in Coal Mines, 2020, 51(11): 121-124.
[2]	JIN Yi, SHENG Jiquan, ZHAO Wanxu, ZHU Yunfei. Influence of Atmospheric Pressure Change on Mine Ventilation System[J]. Safety in Coal Mines, 2020, 51(1): 191-195.
[3]	ZHANG Lihui, ZHANG Yunzeng. Application of Co-rotating Pneumatic Air Door in Pressure Balancing Ventilation System[J]. Safety in Coal Mines, 2018, 49(S1): 45-48.
[4]	SONG Hongyang. Anti-upwind Device for Scraper Conveyor Passing Air Door in Yungaishan Coal Mine[J]. Safety in Coal Mines, 2018, 49(11): 88-90.
[5]	YANG Meng, ZHOU Enbo. Design and Key Technologies for Coal Mine Intelligent Emergency Plan Generation System[J]. Safety in Coal Mines, 2018, 49(7): 96-98.
[6]	WEN Liang, YE Jinjiao, ZHANG Liya. Ultrasonic and Inertial Navigation Technology of Coal Mine Rescue Robot[J]. Safety in Coal Mines, 2017, 48(6): 127-130.
[7]	WEN Liang. Coal Mine Rescue Communication Technology Based on Mesh Network[J]. Safety in Coal Mines, 2013, 44(4): 135-137.
[8]	MA Xin-qing, FU Guang-mei, MA Li-Jun, LIU Xue-qing. Ventilation System Reconstruction Program in Xiaochang Coal Mine[J]. Safety in Coal Mines, 2012, 43(9): 65-67,71.
[9]	ZHANG Bin, SHEN Guang-hui. ZKKG-1型主要通风机不停风倒机系统在矿井通风中的应用[J]. Safety in Coal Mines, 2012, 43(7): 127-129.
[10]	WANG Wen-cai, QIAO Wang, LI Gang, TIAN Cheng. Application of Mine Intelligent Partial Ventilation System in Huhewusu Coal Mine[J]. Safety in Coal Mines, 2012, 43(6): 114-116.

Cited By

Get Citation

PDF

XML

Article views (47) PDF downloads (19)

Turn off MathJax

Article Contents

Abstract

References

Research on control effect of long anchorage and pressure relief synergistic control in deep and strong mining roadway

Abstract

References

Related Articles

Catalog

Research on control effect of long anchorage and pressure relief synergistic control in deep and strong mining roadway

Abstract

References

Related Articles

Catalog

Export File

Citation

Format

Content