A Semi-Analytical Model and Parameter Analysis of a Collaborative Drainage Scheme for a Deeply Buried Tunnel and Parallel Adit in Water-Rich Ground

Luo, Xiongwen; Xiang, Yang; Yu, Chenyun

doi:10.3390/app12083759

Cited by 4 publications

(2 citation statements)

References 14 publications

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“…W. Chen, D. Zhang, Q. Fang, X. Chen, and T. Xu [10], based on the MC strain-softening rock with non-relevant flow criteria, established a new finite strain program for circular tunnels. X. Luo, Y. Xiang, and C. Yu [11] proposed an analytical model to analyze the realistic drainage conditions in parallel tunnels during operation. The research provides a beneficial reference for the optimization of drainage in deeply buried tunnels.…”

Section: Research On Deep Rock Mass Engineeringmentioning

confidence: 99%

Deep Rock Mass Engineering: Excavation, Monitoring, and Control

Fang

2022

Applied Sciences

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Section: Research On Deep Rock Mass Engineeringmentioning

confidence: 99%

Deep Rock Mass Engineering: Excavation, Monitoring, and Control

Fang

2022

Applied Sciences

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“…Guo et al [11] proposed an exact analytical solution of a seepage field for underwater multiple tunnel problems using the Schwartz alternating method combined with conformal mapping. Luo et al [12] established a simplified steady-state seepage model for a deep buried tunnel and parallel adit, and the model was solved iteratively using the complex variable method and the Schwartz alternating method. Ying et al [13] presented an analytical solution for the hydraulic head that considers the effects of the seabed thickness and lining layers using conformal mapping and the principle of superposition.…”

Section: Introductionmentioning

confidence: 99%

Analytical Solutions of Steady a Seepage Field for Deep-Buried Tunnel with Grouting Ring Considering Anisotropic Flow

Chen

Liang²,

Zou³

et al. 2022

JMSE

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Difficulties related to seepage are frequently encountered in tunnel design and construction, especially in deep-buried tunnels. Nowadays, analytical solutions of steady seepage fields for deep-buried tunnel usually assume that the surrounding rock mass is homogeneous. In this study, analytical solutions of a steady seepage field for a deep-buried tunnel with grouting ring considering anisotropic flow are proposed. The proposed analytical solutions are verified by numerical simulations and parameter analysis are carried out. Results show that the seepage field of surrounding rocks around the deep buried circular tunnel is no longer uniformly distributed and presents elliptical distribution. The change of permeability coefficient of the lining structure has a great influence on the hydraulic head when the difference between permeability coefficient of lining structure and surrounding rock is not very large. The results show that the size of the grouting ring has more significant influence on the grouting effect.

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Water control of water-rich deeply buried tunnel: an analytical model of a combined scheme

Luo

Wang

2023

Geotech Geol Eng

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A Semi-Analytical Model and Parameter Analysis of a Collaborative Drainage Scheme for a Deeply Buried Tunnel and Parallel Adit in Water-Rich Ground

Cited by 4 publications

References 14 publications

Deep Rock Mass Engineering: Excavation, Monitoring, and Control

Deep Rock Mass Engineering: Excavation, Monitoring, and Control

Analytical Solutions of Steady a Seepage Field for Deep-Buried Tunnel with Grouting Ring Considering Anisotropic Flow

Water control of water-rich deeply buried tunnel: an analytical model of a combined scheme

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