Relaxation Characteristics and Failure Mechanism of Steeply  Dipping Columnar Jointed Rock Caverns

Pei Shufeng; Wang Yuzheng; Jiang Quan; Zhang Jiancong; Fan Yilin

doi:10.20174/j.JUSE.2024.02.26

Chinese Journal of Underground Space and Engineering >

2024 , Vol. 20 >Issue 2: 597 - 605

DOI: https://doi.org/10.20174/j.JUSE.2024.02.26

Relaxation Characteristics and Failure Mechanism of Steeply Dipping Columnar Jointed Rock Caverns

Pei Shufeng ,
Wang Yuzheng ,
Jiang Quan ,
Zhang Jiancong ,
Fan Yilin

Expand

1. College of Geosciences and Engineering, North China University of Water Resources and Electric Power, Zhengzhou 450046, P.R. China;
2. Postdoctoral Research Station, China Three Gorges Corporation, Wuhan 430010, P.R. China;
3. Institute of Rock and Soil Mechanics, Chinese Academy of Sciences, Wuhan 430071, P.R. China;
4. Power China Huadong Engineering Corporation, Hangzhou 311122, P.R. China;
5. China Three Gorges Corporation, Wuhan 430010, P.R. China

Received date: 2023-09-20

Online published: 2024-05-09

Fold

Abstract

The columnar jointed rock mass of Baihetan Hydropower Station has special column structure characteristics, and the unloading relaxation damage is serious after the excavation of the cavern. Through the on-site failure investigation, displacement and relaxation depth monitoring of the columnar jointed rock mass of the 4# diversion tunnel of Baihetan Hydropower Station, it is found that the columnar joint cavern presents typical asymmetric failure characteristics, and the relaxation depth of different parts is quite different. The failure modes of the left and right side walls are affected by the inclination angle, showing dump failure and slip failure, respectively. The discrete element numerical simulation results show that the surface surrounding rock of the cavern is mainly caused by inter-column joint tension failure, and the inner surrounding rock is mainly caused by shear failure. The different deformation and failure characteristics of the left and right sidewalls are the result of the combined effect of the cylinder inclination and in-situ stress. Finally, the influence of different columnar joint inclination angles on the deformation and failure characteristics of the cavern is analyzed. The relaxation depths of different parts of the cavern under different inclination angles are significantly different. The prestressed bolt design should be carried out according to the depth of the plastic zone and the inclination angle of the cylinder in different parts of the cavern.

Key words： Baihetan hydropower station; columnar joints; underground cavern; numerical simulation; relaxation depth; support advice

Cite this article

Pei Shufeng , Wang Yuzheng , Jiang Quan , Zhang Jiancong , Fan Yilin . Relaxation Characteristics and Failure Mechanism of Steeply Dipping Columnar Jointed Rock Caverns[J]. Chinese Journal of Underground Space and Engineering, 2024 , 20(2) : 597 -605 . DOI: 10.20174/j.JUSE.2024.02.26

References

[1]郝宪杰, 冯夏庭, 江权, 等. 基于电镜扫描实验的柱状节理隧洞卸荷破坏机制研究[J]. 岩石力学与工程学报, 2013, 32(8): 1647-1655. (Hao Xianjie, Feng Xiating, Jiang Quan, et al. Research on unloading failure mechanism of columnar jointed rock mass in tunnel based on scanning electron microscopy experiments[J]. Chinese Journal of Rock Mechanics and Engineering, 2013, 32(8): 1647-1655.(in Chinese))
[2]苑宝军,邓荣贵,杨涛.柱状节理岩石的旋转椭球纤维丛力学模型[J].地下空间与工程学报,2015,11(6):1390-1395.(Yuan Baojun,Deng Ronggui,Yang Tao.A micromechanical model of rotating ellipsoid from cluster of fiber for columnar jointed rocks[J].Chinese Journal of Underground Space and Engineering,2015,11(6):1390-1395.(in Chinese))
[3]苑宝军,邓荣贵,杨涛.柱状节理岩石的形成特征及其工程性质分析[J].地下空间与工程学报,2016,12(增2):481-487.(Yuan Baojun,Deng Ronggui,Yang Tao.Formation characteristics of the columnar jointed rock and its engineering properties[J].Chinese Journal of Underground Space and Engineering,2016,12(Supp.2):481-487.(in Chinese))
[4]王红彬, 郝宪杰, 李邵军, 等. 白鹤滩柱状节理岩体几何结构特征与卸荷松弛特性分析[J]. 土工基础, 2015, 29(3): 84-87, 104. (Wang Hongbin, Hao Xianjie, Li Shaojun, et al. Analysis of geometric structure characteristics and unloading relaxation characteristics of Baihetan columnar jointed rock mass [J]. Soil Engineering and Foundation, 2015, 29(3): 84-87, 104.(in Chinese))
[5]郝宪杰, 冯夏庭, 周扬一, 等.节理间距对柱状节理玄武岩隧洞稳定的影响研究[J].岩石力学与工程学报, 2015, 34(增1):3337-3347. (Hao Xianjie, Feng Xiating, Zhou Yangyi, et al. Influence of joint space to stability of columnar jointed basaltic rock mass[J].Chinese Journal of Rock Mechanics and Engineering 2015, 34(Supp.1): 3337-3347.(in Chinese))
[6]郝宪杰, 冯夏庭, 李邵军, 等. 柱状节理玄武岩隧洞破坏模式及其力学机制模拟[J]. 岩土力学, 2015, 36(3): 837-846. (Hao Xianjie, Feng Xiating, Li Shaojun, et al. Failure mode of columnar jointed basalt tunnel and its mechanism simulation[J]. Rock and Soil Mechanics, 2015, 36(3): 837-846.(in Chinese))
[7]倪绍虎, 何世海, 陈益民, 等. 柱状节理玄武岩的破坏模式、破坏机制及工程对策[J]. 岩石力学与工程学报, 2016, 35(增1): 3064-3075. (Ni Shaohu, He Shihai, Chen Yimin, et al. The failure modes, failure mechanisms and countermeasures of columnar jointed basalt rock mass[J]. Chinese Journal of Rock Mechanics and Engineering, 2016, 35(Supp.1): 3064-3075.(in Chinese))
[8]孟国涛, 樊义林, 江亚丽, 等. 白鹤滩水电站巨型地下洞室群关键岩石力学问题与工程对策研究[J]. 岩石力学与工程学报, 2016, 35(12): 2549-2560. (Meng Guotao, Fan Yilin, Jiang Yali, et al. Key rock mechanical problems and measures for huge caverns of Baihetan hydropower plant[J]. Chinese Journal of Rock Mechanics and Engineering, 2016, 35(12): 2549-2560.(in Chinese))
[9]郝宪杰, 冯夏庭, 陈炳瑞, 等. 柱状节理几何参数对硐室稳定性影响的DDA分析[J]. 岩石力学与工程学报, 2016, 35(增1): 2593-2602. (Hao Xianjie, Feng Xiating, Chen Bingrui, et al. Analysis of influence of geometric parameters of columnar joints on tunnel stability by DDA[J]. Chinese Journal of Rock Mechanics and Engineering, 2016, 35(Supp.1): 2593-2602.(in Chinese))
[10]张建聪, 江权, 郝宪杰, 等. 高应力下柱状节理玄武岩应力-结构型塌方机制分析[J]. 岩土力学, 2021, 42(9): 2556-2568, 2577. (Zhang Jiancong, Jiang Quan, Hao Xianjie, et al. Analysis of stress-structural collapse mechanism of columnar jointed basalt under high stress[J]. Rock and Soil Mechanics, 2021, 42(9): 2556-2568, 2577.(in Chinese))
[11]丰光亮, 张建聪, 江权, 等. 开挖强卸荷下柱状节理岩体时效破裂过程协同观测与机制分析[J]. 岩石力学与工程学报, 2021, 40( 增2): 3041-3051. (Feng Guangliang, Zhang Jiancong, Jiang Quan, et al. Synergistic observation and mechanism analysis of time-dependent fracture process of columnar jointed rockmass under strong unloading during excavation [J]. Chinese Journal of Rock Mechanics and Engineering, 2021, 40(Supp.2): 3041-3051.(in Chinese))
[12]丰光亮, 冯夏庭, 陈炳瑞等. 白鹤滩柱状节理玄武岩隧洞开挖微震活动时空演化特征[J]. 岩石力学与工程学报, 2015, 34(10):1967-1975.(Feng Guangliang, Feng Xiating, Cheng Bingrui, et al. Temperal-spatial characteristics of microseismic activity in columnar jointed basalt in tunnelling at Baihetan hydropower station[J]. Chinese Journal of Rock Mechanics and Engineering, 2015, 34(10):1967-1975.(in Chinese))
[13]Xiao Y Y, Feng X T, Chen B R, et al. Excavation-induced microseismicity in the columnar jointed basalt of an underground hydropower station[J]. International Journal of Rock Mechanics and Mining Sciences,2017,97:99-109.
[14]Zhao Z H, Guo T C, Li S J, et al. Effects of joint surface roughness and orientational anisotropy on characteristics of excavation damage zone in jointed rocks[J]. International Journal of Rock Mechanics and Mining Sciences,2020,128:104265.
[15]石安池, 唐鸣发, 周其健. 金沙江白鹤滩水电站柱状节理玄武岩岩体变形特性研究[J].岩石力学与工程学报, 2008, 27(10):2079-2086. (Shi Anchi, Tang Mingfa, Zhou Qijian. Research of deformation characteristics of columnar jointed basalt at Baihetan hydropower station on Jinsha River[J]. Chinese Journal of Rock Mechanics and Engineering, 2008, 27(10):2079-2086.(in Chinese))
[16]Feng X T, Pei S F, Jiang Q, et al. Deep Fracturing of the hard rock surrounding a large underground cavern subjected to high geostress: in situ observation and mechanism analysis [J]. Rock Mechanics and Rock Engineering, 2017, 50(8):2155-2175.
[17]孟国涛, 侯靖, 陈建林, 等. 巨型地下洞室脆性围岩高应力破裂防治措施研究[J]. 地下空间与工程学报, 2019, 15(1):247-255. (Meng Guotao, Hou Jing, Chen Jianlin, et al. Study on the prevention and control measures of high stress fracture in the brittle surrounding rock of the giant underground cavern [J]. Chinese Journal of Underground Space and Engineering, 2019, 15(1):247-255.(in Chinese))
[18]Hatzor Y H, Feng X T, Li S J, et al. Tunnel reinforcement in columnar jointed basalts: The role of rock mass anisotropy [J].Tunneling and Underground Space Technology, 2015, 46:1-11.
[19]何长江, 冯君, 江南, 等. 节理特性对顺层隧道破坏模式及稳定影响分析[J]. 地下空间与工程学报, 2020, 16(2):599-607. (He Changjiang, Feng Jun, Jiang Nan, et al. Analysis on the influence of rock joint characteristics on failure mode and stability of bedding tunnel [J]. Chinese Journal of Underground Space and Engineering, 2020, 16(2):599-607.(in Chinese))

Options

Outlines

模态框（Modal）标题

Abstract

Cite this article

References