A three-dimensional numerical study on the stability of layered rock spillway tunnels in alpine canyon areas  

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作  者:Peng-Zhi Pan Fuyuan Tan Fengqiong Li Fudong Chi Xufeng Liu Zhaofeng Wang 

机构地区:[1]State Key Laboratory of Geomechanics and Geotechnical Engineering,Institute of Rock and Soil Mechanics,Chinese Academy of Sciences,Wuhan 430071,China [2]East China Jiaotong University,Nanchang 467200,China [3]Power China Kunming Engineering Corporation Limited,Kunming 650000,China [4]Lancang River Clean Energy Security Green Intelligent Construction Technology Innovation Center of Xizang Autonomous Region,Lasa 850008,China

出  处:《Deep Resources Engineering》2024年第2期68-81,共14页深部资源工程(英文)

基  金:supported by the National Natural Science Foundation of China(Grant No.52125903).

摘  要:Rock masses in alpine canyon areas exhibit strong heterogeneity,discontinuity,and are subject to strong tectonic effects and stress unloading,leading to extremely complex distribution of in-situ stress.In addition,the occurrence of layered rock masses makes it more complex,with obvious anisotropic mechanical properties.This study proposes a comprehensive method for evaluating the stability of layered rock spillway tunnels in a hydropower station in an alpine canyon.First,the failure criterion and mechanical model of layered rock masses considering the anisotropy induced by the bedding plane and the true triaxial stress regime were established;an inversion theory and calculation procedure for in-situ stress in alpine canyon areas were then introduced.Finally,by using a self-developed numerical tool,i.e.CASRock,the stability of the layered rock spillway tunnel in a hydropower station was numerically analyzed.The results show that,affected by geological structure and stratigraphic lithology,there is significant differentiation in the in-situ stress in alpine canyons,with horizontal tectonic stress as the main factor.The occurrence of layered rock masses in the region has a significant impact on the stability of surrounding rock,and the angle between the bedding strike and the tunnel axis as well as the bedding dip both exert a significant influence on the failure characteristics of the surrounding rock.

关 键 词:Alpine canyon areas In-situ stress inversion Layered rock mass Stability characteristics of surrounding rock Numerical simulation 

分 类 号:TV1[水利工程]

 

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