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隧道建设(中英文) ›› 2024, Vol. 44 ›› Issue (S1): 301-310.DOI: 10.3973/j.issn.2096-4498.2024.S1.033

• 规划与设计 • 上一篇    下一篇

深汕西改扩建工程超大跨公路隧道设计与实践

梁淦波, 杨宝锋, 祝鑫   

  1. (广东省交通规划设计研究院集团股份有限公司, 广东 广州 510507
  • 出版日期:2024-08-20 发布日期:2024-09-02
  • 作者简介:梁淦波(1975—),男,广东湛江人,1996年毕业于同济大学,地下工程与隧道工程专业,本科,教授级高级工程师,现从事公路隧道工程的设计、咨询、研究工作。E-mail: 43942558@qq.com。

Design and Practice of Super-Large Span Tunnel for Shenzhen-Shantou Western Expressway Extension Project

LIANG Ganbo, YANG Baofeng, ZHU Xin   

  1. (Guangdong Province Communications Planning & Design Institute Co., Ltd., Guangzhou 510507, Guangdong, China)
  • Online:2024-08-20 Published:2024-09-02

摘要: 为解决超大跨公路隧道在设计施工过程中普遍存在的工法选择、支护参数确定等技术难题,基于广东省深汕西高速改扩建项目双洞8车道超大跨公路隧道建设实例,通过调研、工程类比、模拟计算等方法,进行超大跨公路隧道在施工工法、支护参数、“一洞九线”大型机械化工装配置以及相关优化设计等方面的研究,并通过监控量测对设计方案进行验证。结果表明: 1)现行规范中23车道隧道的设计方法仍基本适用于4车道隧道。2CD法适用于深埋强风化层,且拱顶强风化层厚度不小于1倍洞身开挖宽度;三台阶法适用于深埋中风化层,且拱顶中风化层厚度不小于1倍洞身开挖宽度。3)采用51超前中管棚、掌子面玻璃纤维锚、涨壳式预应力锚杆以及C30早高强喷射混凝土后,在Ⅳ级围岩中进行机械化施工具有较高的可行性。4)在前述超前预加固以及支护优化的前提下,当仰拱与掌子面的距离优化至106 mCD法)、118 m(三台阶法),二次衬砌与掌子面的距离优化至160 mCD法)、190 m(三台阶法),机械化施工可达到安全、高效的预期。

关键词: 超大跨公路隧道, 施工工法, 支护参数, 机械化施工

Abstract: To rationally select construction methods and support parameters in the design and construction process of super-large span highway tunnels, a case study is conducted on a double-hole eight-lane super-large span highway tunnel of the Shenzhen-Shantou western expressway extension project in Guangdong province, China. The investigation, engineering analogies, and simulation calculations are employed to examine the construction method, supporting parameters, "one-hole nine-line" large-scale mechanized tooling configuration, and related optimization design of super-large span highway tunnel. Furthermore, the design scheme is validated through monitoring and measuring. The results reveal the following: (1) The design methods for two- and three-lane tunnels in the current specifications are still basically applicable to four-lane tunnels. (2) The centerdiaphragm(CD) method is suitable for deep and strongly-weathered strata with a thickness in the arch no less than 1 times the excavation width of the tunnel; whereas the three-bench method is suitable for deep and moderately-weathered strata with a thickness in the arch no less than 1 times the excavation width of the tunnel. (3) The mechanized construction method can be applied in Grade surrounding rock after implementing advance middle pipe roof, glass fiber anchor, expanded shell prestressed anchor, and C30 early high-strength shotcrete. (4) Under the premise of advance pre-reinforcement and support optimization mentioned above, the mechanized construction method is applicable when the distance between the invert and the tunnel face is optimized to 106 m (CD method) or 118 m (three-bench method), and the distance between the secondary lining and the tunnel face is optimized to 160 m (CD method) or 190 m (threebench method).

Key words: super-large span highway tunnel, construction method, support parameters, mechanized construction