• 中国科学引文数据库(CSCD)来源期刊
  • 中文核心期刊中文科技核心期刊
  • Scopus RCCSE中国核心学术期刊
  • 美国EBSCO数据库 俄罗斯《文摘杂志》
  • 《日本科学技术振兴机构数据库(中国)》
二维码

隧道建设(中英文) ›› 2023, Vol. 43 ›› Issue (4): 665-673.DOI: 10.3973/j.issn.2096-4498.2023.04.013

• 规划与设计 • 上一篇    下一篇

沉管隧道岸上最终接头处二次围堰结构设计与应用——以襄阳市东西轴线道路工程鱼梁洲段项目为例

冯先导1, 2, 3, 4, 王聪1, 3, 4, *, 孙晓伟1, 曾波存1   

  1. (1. 中交第二航务工程局有限公司, 湖北 武汉 430040;2. 中交武汉港湾工程设计研究院有限公司, 湖北 武汉 430040;3. 长大桥梁建设施工技术交通行业重点实验室, 湖北 武汉 430040;4. 交通基础设施智能制造技术交通运输行业研发中心, 湖北 武汉  430040)

  • 出版日期:2023-04-20 发布日期:2023-05-23
  • 作者简介:冯先导(1984—),男,河南三门峡人,2010年毕业于河海大学,港口、海岸及近海工程专业,硕士,高级工程师,主要从事沉管隧道施工项目管理工作。Email: 283218530@qq.com。*通信作者: 王聪, Email: 798938976@qq.com。

Design and Application of Secondary Cofferdam Structure at Onshore Final Joint of Immersed Tunnel: a Case Study of Yuliangzhou Section

FENG Xiandao1, 2, 3, 4, WANG Cong1, 3, 4, *, SUN Xiaowei1, ZENG Bocun1   

  1. (1.CCCC Second Harbor Engineering Co.,Ltd.,Wuhan 430040,Hubei,China;2.CCCC Wuhan Harbour Engineering Design and Research Institute Co.,Ltd.,Wuhan 430040,Hubei,China;3.Key Laboratory of Large-span Bridge Construction Technology,Wuhan 430040,Hubei,China;4.Research and Development Center of Transport Industry of Intelligent Manufacturing Technologies of Transport Infrastructure,Wuhan 430040,Hubei,China)

  • Online:2023-04-20 Published:2023-05-23

摘要: 针对临江轴线干坞沉管隧道岸上最终接头处高水头作用下坞门二次围堰结构复杂、止水难度大等技术难题,提出新型钢壳夹壁混凝土围堰挡水结构、管节底部“橡胶止水带+模袋混凝土+水下注浆”三重止水结构。采用有限元数值方法对围堰挡水结构的强度和变形进行模拟分析,并采用室内试验对橡胶止水带的压缩止水性能进行研究,同时对模袋混凝土的压浆工艺及止水可行性进行了现场试验,达到了二次围堰高效快速施工、安全稳定使用以及无渗无漏的止水效果。该技术成功应用于襄阳市东西轴线道路工程鱼梁洲段项目沉管隧道施工中。实践表明: 新型钢壳夹壁混凝土围堰挡水结构可用作二次围堰挡水设计,三重止水结构可实现管节与基础传力板的间隙在100 mm内时的可靠止水。

关键词: 沉管隧道, 轴线干坞, 最终接头, 二次围堰, 钢壳夹壁混凝土, 三重止水结构 

Abstract: The high water head at the onshore final joint of the immersed tunnel of the dry dock of the Yuliangzhou section on the EastWest axis in Xiangyang, China has led to a complex secondary cofferdam structure of the dock door and a difficult water stop. To address these issues, a steel shell sandwich wall concrete cofferdam waterretaining structure and a triple waterproof structure at the bottom of the immersed tube (i.e., rubber water stop + mold bag concrete + underwater grouting) are proposed. The strength and the deformation of the cofferdam retaining structure are simulated using the finite element method. The compression sealing performance of the rubber water stop is examined using the laboratory test method. The grouting technology and the water stop feasibility of mold bag concrete are also investigated. The adopted technologies guarantee high efficiency, rapid construction of the secondary cofferdam structure, and good waterstop effect. The successful application of the recommended technologies shows that a new structure of the steel shell sandwich wall concrete cofferdam can be used in a secondary cofferdam waterretaining design. Furthermore, the triple waterproof structure achieves a reliable waterstop effect when the clearance range between the immersed tube and the force transfer plate foundation is within 100 mm.

Key words: immersed tunnel, axis dry dock, final joint, secondary cofferdam, steel shell sandwich wall concrete, triple waterproof structure