Numerical Stability Analysis of Large Section Tunnels Using the Double-Side Heading Method: A Case Study of Xiamen Haicang Evacuate-Channel

Large section tunnels have huge excavation spans, complex excavation procedures, mutual influence among various procedures, multiple disturbances of the surrounding rock, and discontinuous connection among linings under different procedures, which bring great difficulties to their construction. The...

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Bibliographic Details
Published in:Applied sciences 2023-01, Vol.13 (1), p.406
Main Authors: Wang, Jianxiu, Cao, Ansheng, Wu, Zhao, Lin, Lihua, Li, Zonghai, Liu, Xiaotian, Li, Huboqiang, Long, Yanxia, Sun, Yuanwei
Format: Article
Language:English
Subjects:
Arches
Concrete
Construction
Deformation effects
Dismantling
double side heading method
Excavation
excavation sequence
large section tunnel
Linings
Mathematical models
Methods
Numerical analysis
Numerical methods
numerical simulation
Numerical stability
Pilot tunnels
Roads & highways
Rocks
Stability analysis
supporting timing
Traffic
Tunnels
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Summary:Large section tunnels have huge excavation spans, complex excavation procedures, mutual influence among various procedures, multiple disturbances of the surrounding rock, and discontinuous connection among linings under different procedures, which bring great difficulties to their construction. The Caijianwei Mountain No. 2 tunnel of the Xiamen Haicang Evacuate-channel project in China belongs to a super large section tunnel. The tunnel’s maximum excavation section span reaches 30.52 m, and the excavation area reaches 421.73 m2. Its excavation sequence, the timing of the second primary lining support, temporary support disassembly, and secondary lining support of the double-side heading method were analyzed using numerical methods. The excavation sequence of the double side-heading method from the right pilot tunnel to the left pilot tunnel and then to the middle pilot tunnel can avoid a large horizontal displacement at the arch waist and control the deformation of the lining. The excavation sequence from the middle pilot tunnel to the two side pilot tunnels was conducive to the bearing performance of the concrete at the arch crown. The excavation sequence from the two side pilot tunnels to the middle pilot tunnel can better protect the concrete safety at the arch waist. The timing of the second primary lining support, temporary support removal, and secondary lining support have different effects on the deformation and stress of the surrounding rock and support structures. In the construction process, the timing of the second primary lining support, temporary support disassembly, and secondary lining support should be determined according to the actual deformation and stress of the site section. The research results can provide a reference for the construction design of the double-side heading method for large section tunnels.
ISSN:2076-3417
2076-3417
DOI:10.3390/app13010406