Study on stability and control of surrounding rock of roadway with large section in thick coal seam

BAI Zhiyun; XU Qingyun; WANG Aiguo; ZHAO Tao

Safety in Coal Mines > 2022 > 53(6): 178-186.

BAI Zhiyun, XU Qingyun, WANG Aiguo, ZHAO Tao. Study on stability and control of surrounding rock of roadway with large section in thick coal seam[J]. Safety in Coal Mines, 2022, 53(6): 178-186.

Citation:

BAI Zhiyun, XU Qingyun, WANG Aiguo, ZHAO Tao. Study on stability and control of surrounding rock of roadway with large section in thick coal seam[J]. Safety in Coal Mines, 2022, 53(6): 178-186.

Citation:

BAI Zhiyun, XU Qingyun, WANG Aiguo, ZHAO Tao. Study on stability and control of surrounding rock of roadway with large section in thick coal seam[J]. Safety in Coal Mines, 2022, 53(6): 178-186.

PDF (7410 KB)

Study on stability and control of surrounding rock of roadway with large section in thick coal seam

More Information

Published Date: June 19, 2022

Graphical Abstract

Abstract

Abstract

In order to solve the stability problem of large section top coal roadway in No.4 coal seam of Longquan Coal Mine, taking the return airway of 4203 working face of Longquan Coal Mine as the research object, the roadway stability is studied by the combination of theoretical analysis, numerical simulation and field measurement. Firstly, the mechanical analysis model of roadway rock stability is established, the calculation formula of top coal crushing position is deduced, and the main factors affecting top coal failure are determined. Secondly, UDEC-Trigon model is used to analyze the stress, plastic zone and surrounding rock displacement of roadway under different top coal thickness. The results show that the shear failure of roadway roof is related to the internal friction angle of rock and the friction angle between rock blocks（ｓｕｒｆａｃｅｓ）, and the failure position is at the shoulder angle of two sides of roadway. By comparing the supporting effects of supporting schemes under different top coal thickness, the comprehensive control technology of surrounding rock for timely supporting roadways with high pre-stress and high strength bolt and cable in return airway of 4203 working face was proposed. The optimized support scheme was applied in the field, and the measured maximum deformation of roof and floor was 104 mm, and the maximum deformation of two sides was 86 mm, and the implementation effect was significantly improved.
- thick coal seam,
- large section,
- surrounding rock control,
- numerical simulation,
- top coal roadway

FullText(HTML)

References (20)

References

[1]	康红普，徐刚，王彪谋，等．我国煤炭开采与岩层控制技术发展40 ａ及展望[J]．采矿与岩层控制工程学报，2019，1（1）：1－33. KANG Hongpu, XU Gang, WANG Biaomou, et al. Forty years development and prospects of underground coal mining and strata control technologies in China[J]. Journal of Mining and Strata Control Engineering, 2019, 1（1）: 1-33.
[2]	钱鸣高，许家林．煤炭开采与岩层运动[J]．煤炭学报， 2019，44（4）：5－16. QIAN Minggao, XU Jialin. Behaviors of strara movement in coal mining[J]. Journal of China Coal Society, 2019, 44（4）: 5-16.
[3]	康红普．我国煤矿巷道围岩控制技术发展70年及展望[J]．岩石力学与工程学报，2021，40（1）：1－30. KANG Hongpu. Seventy years development and pros-pects of strata control technologies for coal mine roadways in China[J]. Chinese Journal of Rock Mechanics and Engineering, 2021, 40（1）: 1-30.
[4]	张彦禄，王步康，张小峰，等．我国连续采煤机短壁机械化开采技术发展40 ａ与展望[J]．煤炭学报，2021， 46（1）：86－99. ZHANG Yanlu, WANG Bukang, ZHANG Xiaofeng, et al. Forty years’ development and future prospect on mechanized short-wall mining technology with continuous miner in China[J]. Journal of China Coal Society, 2021, 46（1）: 86-99.
[5]	张广超，何富连．大断面强采动综放煤巷顶板非对称破坏机制与控制对策[J]．岩石力学与工程学报，2016， 35（4）：806－818. ZHANG Guangchao, HE Fulian. Asymmetric failure and control measures of large cross-section entry roof with strong mining disturbance and fully-mechanized caving mining[J]. Chinese Journal of Rock Mechanics and Engineering, 2016, 35（4）: 806-818.
[6]	彭杨皓，杨捷，程晋国，等．煤矿大断面托顶煤巷道变形机理及控制技术研究[J]．矿业科学学报，2017，2（5）：439－448. PENG Yanghao, YANG Jie, CHENG Jinguo. Deformation mechanism and control technology of large section gateway with top coal in coal mine[J]． Journal of Mining Science and Technology, 2017, 2（5）: 439-448.
[7]	单仁亮，鲍永生，原鸿鹄．厚顶煤巷道顶帮整体锚固支护体系研究与应用[J]．煤炭科学技术，2018，46（4）：93－99. SHAN Renliang, BAO Yongsheng, YUAN Honghu. Research and application of whole anchorage support system in roof and two sides of thick top coal roadway[J]. Coal Science and Technology, 2018, 46（4）: 93-99.
[8]	彭杨皓，张书鹏，张艺源，等．煤矿大断面托顶煤巷道围岩变形破坏机理[J]．煤矿安全，2019，50（5）：263. PENG Yanghao, ZHANG Shupeng, ZHANG Yiyuan, et al． Surrounding rock deformation failure mechanism of large section gateway with top coal in coal mine[J]. Safety in Coal Mines, 2019, 50（5）: 263.
[9]	汪占领，井庆贺，石蒙，等．特厚煤层大断面托顶煤巷道支护机理及应用研究[J]．中国矿业，2021，30（3）：66－69. WANG Zhanling, JING Qinghe, SHI Meng, et al. Study on mechanism and application of support in large-section top coal roadway with extra-thick coal seam[J]. China Mining Magazine, 2021, 30（3）: 66-69.
[10]	孙小岩，贺永亮，张志聪．大断面托顶煤巷道支护技术研究[J]．煤炭工程，2021，53（5）：51－56. SUN Xiaoyan, HE Yongliang, ZHANG Zhicong. Supporting technology of large-section top coal roadway[J]. Coal Engineering, 2021, 53（5）: 51-56.
[11]	张云峰，张飞腾，张永强，等．托顶煤巷道全锚索支护参数匹配性研究[J]．矿业研究与开发，2021，41（2）：104－108. ZHANG Yunfeng, ZHANG Feiteng, ZHANG Yongqiang, et al. Research on parameter matching of full anchor cable support in top-coal roadway[J]. Mining Research and Development, 2021, 41（2）: 104-108.
[12]	田柯，武超．大断面托顶煤巷道不稳定区域支护研究[J]．煤矿安全，2018，49（11）：136－140. TIAN Ke, WU Chao. Unstable regional support of large section top coal roadway[J]. Safety in Coal Mines, 2018, 49（11）: 136-140.
[13]	侯朝炯．巷道围岩控制[Ｍ]．徐州：中国矿业大学出版社，2013：288－390.
[14]	李磊．大断面托顶煤巷道灾变机制与控制技术研究[D]．徐州：中国矿业大学，2013：69－74.
[15]	刘鸿文．材料力学[Ｍ]．北京：高等教育出版社，1983：209－214.
[16]	张涛．顶板长短锚索控制托顶煤巷道围岩稳定机理研究[D]．徐州：中国矿业大学，2019：17－24.
[17]	高富强．数值模拟在地下煤矿开采岩石力学问题中的应用[J]．采矿与岩层控制工程学报，2019，1（2）：21－28. GAO Fuqiang. Use of numerical modeling for analyzing rock mechanic problems in underground coal mine practices[J]. Journal of Mining and Strata Control Engineering, 2019, 1（2）: 21-28.
[18]	GAO F, STEAD D, KANG H, et al． Discrete element modelling of deformation and damage of a roadway driven along an unstable goaf—A case study[J]. International Journal of Coal Geology, 2014, 127: 100.
[19]	GAO F, STEAD D, KANG H. Numerical simulation of squeezing failure in a coal mine roadway due to mining-induced stresses[J]. Rock Mechanics and Rock Engineering, 2015, 48（4）: 1635-1645.
[20]	GAO F Q, KANG H P. Effects of pre-existing discontinuities on the residual strength of rock mass—insight from a discrete element method simulation[J]. Journal of Structural Geology, 2016, 85: 40-50.

[1]	YANG Jian, MENG Delong, LIU Haodong, WANG Gang. Temperature distribution law and cooling simulation of high temperature tunneling roadway[J]. Safety in Coal Mines, 2023, 54(3): 40-45.
[2]	WANG Lin, LI Tingchun, ZHANG Hao, DU Yiteng, ZHANG Zhigao. Simulation Study on Maximum Cycle Footage During Roadway Excavation[J]. Safety in Coal Mines, 2019, 50(1): 226-230.
[3]	DAI Jiangjiao, HUANG Jiahai, ZHAO Bin, CHENG Heng, LI Jun. Numerical Analysis of Ventilation System in Large Section Simulation Tunneling Roadway[J]. Safety in Coal Mines, 2016, 47(11): 193-196.
[4]	GENG Cheng. Research on Vibration Characteristics of Blasting Excavation in Rectangular Soft Rock Roadway[J]. Safety in Coal Mines, 2016, 47(8): 57-60.
[5]	WANG Fei, ZHU Hongli, ZHANG Jianzhen. Surrounding Rock Stability Numerical Simulation in Water-rich Roadway Based on Fluid-solid Coupling Theory[J]. Safety in Coal Mines, 2016, 47(4): 219-221,225.
[6]	YANG Dengfeng, CHEN Zhonghui, LIU Xin, GAO Qin, WANG Li'nan. Numerical Simulation of Mining-induced Water Bursting Law of Coal Floor with Hidden Faults[J]. Safety in Coal Mines, 2015, 46(11): 193-195,199.
[7]	ZHAO Yuting, DUAN Dong, YANG Yao, FANG Chaohe, QU Xiaoming, KANG Zhiqin. Numerical Simulation on Influence Factors of Ground Stress at the End of Fault[J]. Safety in Coal Mines, 2015, 46(10): 210-212,213.
[8]	SUN Haiyang, WANG Lianguo, LU Yinlong, HUANG Yaoguang. Numerical Simulation and Parameter Optimization of Advance Anchor Bolt Support in Fault[J]. Safety in Coal Mines, 2015, 46(8): 205-208.
[9]	WANG Chun. Bolt-grouting Support Technology for Mining Roadway Passing Through Water-bearing Fault[J]. Safety in Coal Mines, 2015, 46(6): 73-76.
[10]	HUANG Cun-han, HUANG Jun-jie, LI Zhen-hua. The Water Inrush Numerical Simulation of Minor Faults Concealed in Coal Seam Floor[J]. Safety in Coal Mines, 2013, 44(10): 24-26.

Cited By

Get Citation

PDF

XML

Article views (59) PDF downloads (15)

Turn off MathJax

Article Contents

Abstract

References

Study on stability and control of surrounding rock of roadway with large section in thick coal seam

Abstract

References

Related Articles

Catalog

Study on stability and control of surrounding rock of roadway with large section in thick coal seam

Abstract

References

Related Articles

Catalog

Export File

Citation

Format

Content