岩溶区大直径盾构隧道下穿机场飞行区不停航施工建设方案  被引量：2

作　　者：叶宇航 罗旭 刘健美 徐文田 梁粤华 YE Yuhang;LUO Xu;LIU Jianmei;XU Wentian;LIANG Yuehua(Guangzhou Metro Design&Research Institute Co.,Ltd.,510220,Guangzhou,China;College of Civil Engineering,Tongji University,200092,Shanghai,China)

机构地区：[1]广州地铁设计研究院股份有限公司,广州510220 [2]同济大学土木工程学院,上海200092

出　　处：《城市轨道交通研究》2024年第1期269-275,共7页Urban Mass Transit

基　　金：广州市重点研发计划重大科技专项揭榜挂帅项目(20220602JBGS01);广州地铁设计研究院有限公司科研计划项目(KYSQ-2021-080,KYSQ-2021-020)。

摘　　要：[目的]为实现岩溶区下穿机场飞行区大直径盾构隧道不停航施工,需对不停航施工建设方案进行研究。[方法]基于广州白云国际机场三期扩建工程2号、3号下穿通道,分析机场飞行区不停航施工障碍物限制及道面区沉降控制要求,提出本工程道面区控制标准;结合岩溶区工程地质特点,提出浅埋大直径盾构隧道施工方案。建立三维精细化数值模型,分析盾构穿越施工对机场跑道影响,验证施工方案的可行性。[结果及结论]应尽量避免隧道底进入基岩,并满足隧道整体抗浮要求;应采取措施增大盾构隧道整体刚度,最大限度地减小对机场运营的影响。研究结果表明:由于穿越机场飞行区隧道设计主要考虑隧道施工期间道面区沉降对飞机安全运营的影响,故道面沉降控制标准按总沉降量不应大于30 mm且跑道差异沉降率不应大于1‰;根据数值分析结果,盾构穿越机场飞行区施工过程中,机场跑道沉降最大值为15.48 mm,最大差异沉降率为0.20‰,均满足机场跑道沉降限制值要求。[Objective]To achieve non-stop aviation during the construction of a large-diameter shield tunnel crossing the airport flight zone in karst area,it is essential to study the construction scheme with non-stop aviation.[Method]Based on the construction of the No.2 and No.3 underpasses of the Phase III expansion project of Guangzhou Baiyun International Airport,the obstacle restrictions and runway land subsidence control requirements for non-stop aviation in airport flight zone are analyzed,and control standards for the runway area of this project are proposed.Combining the geological characteristics of engineering in karst area,a construction scheme for shallow-buried large-diameter shield tunnels is proposed.A three-dimensional refined numerical model is established to analyze the impact of shield tunneling on airport runway and validate the feasibility of the construction scheme.[Result&Conclusion]Efforts should be made to avoid tunneling into tunnel bottom bedrocks and meet the tunnel overall anti-floating requirements.Measures to increase shield tunnel overall stiffness should be taken to minimize the impact on airport operations to the greatest extent.The research results indicate that the design of tunnel crossing airport flight area mainly considers the impact of runway subsidence on aircraft operation safety during tunnel construction,so the runway subsidence control standard is set at the total subsidence within 30 mm,with a maximum differential subsidence rate not exceeding 1‰.According to numerical analysis results,the maximum subsidence of the airport runway during shield tunnel construction is 15.48 mm,with the maximum differential subsidence rate of 0.20‰,meeting the requirements for airport runway subsidence limits.

关 键 词：大直径盾构 岩溶区 机场飞行区 不停航施工 

分 类 号：U455.43[建筑科学—桥梁与隧道工程] TU248.6[交通运输工程—道路与铁道工程]