Investigation on seepage evolution property of surrounding rock under the tunneling and water surge

IF 6.7 1区工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY Tunnelling and Underground Space Technology Pub Date : 2024-07-20 DOI:10.1016/j.tust.2024.105970

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Abstract

The tunnel water surge seriously threatens the tunneling safety. Based on COMSOL numerical simulation, the tunneling model is established and the tunneling stress evolution law is studied. Based on the tunneling stress variation law, the water seepage test of tunnel surrounding rock is designed and carried out. It is studied that tunneling stress can be divided into the area of in-situ stress, supporting effect and stress stabilization. Moreover, the tunneling stress increases sharply in the supporting effect area. In the mechanical loading early stage of seepage test, that is, the in-situ stress area, the rock deformation and permeability are relatively stable. The post-peak failure stages are divided into passive and active unloading stages of $(σ_{1} - σ_{3})$ . In the $(σ_{1} - σ_{3})$ passive unloading stage, that is, the supporting effect area, the strain and permeability increase dramatically. It reflects the crack propagation and water surge process of tunnel surrounding rock. In the $(σ_{1} - σ_{3})$ active unloading stage, that is, in the stress stabilization area, the permeability first slows down and then rapidly decreases. It reflects the tunnel water surge weakening under the lining support action. Meanwhile, based on the rock porosity and statistical damage variables, the permeability evolution model is established. By comparation, the model calculated results are consistent to the seepage test data, which verifies the model validity. The permeability mathematical model can serve as a reference for the prediction of tunnel water surge node.

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隧道掘进和涌水作用下围岩渗流演化特性研究

隧道涌水严重威胁隧道安全。基于 COMSOL 数值模拟，建立了隧道掘进模型，研究了隧道应力演变规律。根据隧道应力变化规律，设计并进行了隧道围岩渗水试验。研究发现，隧道应力可分为原位应力区、支护效应区和应力稳定区。此外，隧道应力在支护效应区急剧增加。在渗流试验的机械加载初期，即原位应力区，岩石变形和渗透性相对稳定。峰后破坏阶段分为σ1-σ3的被动卸载阶段和主动卸载阶段。在 σ1-σ3 被动卸载阶段，即支撑效应区，应变和渗透率急剧增加。这反映了隧道围岩的裂缝扩展和涌水过程。在σ1-σ3 主动卸载阶段，即应力稳定区，渗透率先减缓后迅速降低。这反映了在衬砌支护作用下隧道涌水减弱。同时，基于岩石孔隙率和统计损伤变量，建立了渗透率演化模型。通过比较，模型计算结果与渗流试验数据一致，验证了模型的有效性。该渗透率数学模型可作为隧道涌水节点预测的参考。

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来源期刊

Tunnelling and Underground Space Technology 工程技术-工程：土木

CiteScore

11.90

自引率

18.80%

发文量

454

审稿时长

10.8 months

期刊介绍： Tunnelling and Underground Space Technology is an international journal which publishes authoritative articles encompassing the development of innovative uses of underground space and the results of high quality research into improved, more cost-effective techniques for the planning, geo-investigation, design, construction, operation and maintenance of underground and earth-sheltered structures. The journal provides an effective vehicle for the improved worldwide exchange of information on developments in underground technology - and the experience gained from its use - and is strongly committed to publishing papers on the interdisciplinary aspects of creating, planning, and regulating underground space.