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隧道建设(中英文)

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富水砂层既有运营车站地下障碍物的冻结法清障方案力学分析及工程应用#br#

朱 敏,徐 琛,汪子豪   

  1. (长江勘测规划设计研究有限责任公司 湖北 武汉 430010)
  • 出版日期:2024-01-29 发布日期:2024-01-29

Mechanical Analysis and Engineering Application of the Freezing Method for Clearing Obstacles under Existing Operating Stations in Water-rich Sand Layers#br#

ZHU Min,XU Chen,WANG Zihao   

  1. (1. Changjiang Institute of Survey, Planning, Design and Research, Wuhan 430010, China)
  • Online:2024-01-29 Published:2024-01-29

摘要: 为解决在富水砂层条件下新建盾构隧道如何下穿既有运营车站地下障碍物的问题,本文依托武汉地铁12 号线区
间下穿某既有运营车站,提出清障井明挖提供作业面、清障井内纵向冻结人工开挖破除地下障碍物、素混凝土回填后
盾构掘进的方案。首先参考行业内标准及相似案例,给出既有运营车站相应的允许变形控制指标;其次,采用有限元
数值分析方法对冻结开挖、清障井开挖、盾构掘进各个工序进行力学分析,提出各个工序的设计和施工关键技术要点;
最后,通过现场实测变形数据分析,既有车站底板变形在有限元计算值范围以内。该方案在保障既有运营车站变形可
控的同时,克服了富水砂层条件下地下障碍物人工破除时存在的涌水、坍塌的问题,提升了新建隧道下穿地下结构障
碍物的安全性。

关键词: 清障井, 盾构隧道, 地下障碍物, 冻结, 力学分析

Abstract: In order to solve the problem of how to construct a new shield tunnel under the condition of waterrich
sand layer and pass through the underground obstacles of an existing operating station, this article relies
on the construction of a new section of Wuhan Metro Line 12, which passes through an existing operating
station, and proposes a plan of providing a working surface by open excavation of a clearing shaft, breaking
through the underground obstacles by longitudinal freezing and manual excavation in the clearing shaft, and
shield tunneling after backfilling with plain concrete.Firstly, by referring to industry standards and similar cases,
the corresponding allowable deformation control indicators for the existing operating station are
given.Secondly, using finite element numerical analysis method, the mechanical analysis of each process of
freezing excavation, clearing shaft excavation, and shield tunneling is carried out, and the key technical points
of design and construction of each process are proposed.Finally, through the analysis of the measured
deformation data on site, the deformation of the existing station floor is within the range of the calculated value
of finite element.This plan not only ensures the controllability of the deformation of the existing operating
station, but also overcomes the problems of water inrush and collapse during manual breaking of the
underground obstacles under the condition of water-rich sand layer, and improves the safety of the new tunnel
passing through the underground structural obstacles.