Mechanism and modeling of infiltration of saturated sand by excavated sand-containing slurry

•A model of bentonite–sand infiltration behavior is presented.•The model has two components: infiltration and prediction models.•The model explains the bentonite–sand slurry infiltration mechanism.•The model predicts mud-spurt occurrences during shield tunneling in sandy layers. During slurry pressu...

Full description

Saved in:
Bibliographic Details
Published in:Tunnelling and underground space technology 2024-11, Vol.153, p.106003, Article 106003
Main Authors: Yin, Zhanchao, Zhang, Qingsong, Liu, Yanshun, Li, Xianghui, Zheng, Dongzhu, Zhang, Xiao
Format: Article
Language:English
Subjects:
Bentonite-sand slurry
Deep-bed filtration
Infiltration model
Mud spurt
Slurry shield tunneling
Citations: Items that this one cites
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:•A model of bentonite–sand infiltration behavior is presented.•The model has two components: infiltration and prediction models.•The model explains the bentonite–sand slurry infiltration mechanism.•The model predicts mud-spurt occurrences during shield tunneling in sandy layers. During slurry pressure-balance (SPB) shield tunneling in a sand layer, the excavated sand mixes with bentonite slurry. Herein, the pressure infiltration of the saturated sand by the bentonite–sand slurry is modeled to describe the slurry and companion-water flows during the mud spurt period. A maximum infiltration-depth prediction model is also implemented, based on the principles of particle deep-bed filtration. The model closely matches experimental results for a slurry with a low sand-to-bentonite mass ratio, but tends to overestimate the infiltration distance as the mass ratio increases. Furthermore, the prediction model reflects the continuous infiltration phenomenon associated with elevated sand concentrations in the slurry. When combined with the maximum-depth prediction model, the infiltration model strongly aligns with the experimental findings for the mud spurt period. The combined model effectively explains the bentonite–sand slurry infiltration mechanism and accurately predicts mud-spurt occurrences during SPB shield tunneling in sandy layers.
ISSN:0886-7798
DOI:10.1016/j.tust.2024.106003