Simulation Analysis Method for Evolution Process of Water and Mud Inrush in Underground Tunnels

doi:10.11988/ckyyb.20240287

Abstract

Abstract:

Evaluating the damage risk level of water and mud inrush during the construction under water-rich, high-pressure, and unfavorable geological conditions is a challenge for the construction design of underground tunnels. Analyzing the interactions between excavation stress and seepage is crucial for accurately simulating the evolution of water and mud inrush during tunnel construction. We propose a method to calculate the damage coefficient of surrounding rock corresponding to the damage characteristics in different deformation stages based on its damage evolution during excavation load release, and further examines how this damage affects the rock’s permeability coefficient. Furthermore, we introduce a calculation method for determining the critical water inrush coefficient of surrounding rock based on its failure characteristics and water inrush mechanisms. According to the damage and permeability of surrounding rock, we categorize the water and mud inrush damage into four risk levels, providing the basis for assessing the risk of such damage in underground tunnel construction. Finally, we present a coupling calculation method that integrates variable damage stiffness, weighted grading of excavation load, and iterative application of seepage load. This method simulates the evolution of water and mud inrush during tunnel excavation. Application of this method in engineering practice demonstrates its effectiveness, offering a viable approach for assessing water and mud inrush risks in underground tunnel projects.

Key words: water and mud inrush, underground tunnels, construction excavation, numerical simulation, coupled iteration

CLC Number:

TV554

DU Xing-wu, KONG Ci, XIAO Ming, ZHAN Shuang-qiao, CHEN Yun-cai, ZHAO Bin-xin, XING Tian, YANG Bo-zhen. Simulation Analysis Method for Evolution Process of Water and Mud Inrush in Underground Tunnels[J]. Journal of Yangtze River Scientific Research Institute, 2024, 41(10): 157-164.

Figures/Tables 6

Fig.1 Finite element calculation of the bending moment of fixed-support plate

Fig.2 Three-dimensional finite element model of tunnel excavation

Fig.3 Distribution laws of the failure zone of surrounding rock under different water pressures

Fig.4 Distribution laws of isohydraulic headline under different water pressures

Fig.5 Distribution law of hydraulic slope gradient under different water pressures

Fig.6 Distribution law of water and mud inrush risk zones under different water pressures

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