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隧道建设(中英文) ›› 2021, Vol. 41 ›› Issue (9): 1433-1450.DOI: 10.3973/j.issn.2096-4498.2021.09.001

• 专家论坛 • 上一篇    下一篇

Establishment and Application of "1 km+100 m+50 m" Geological Prediction System for ExtraLong TBM Tunnels:  a Case Study on Water Supply Project  in Xinjiang, China(超特长隧洞TBM施工“115”超前地质预报系统创建与实践——以北疆供水二期工程为例)

邓铭江1, 许振浩2, 刘斌2   

  1. (1. 新疆额尔齐斯河流域开发工程建设管理局, 新疆 乌鲁木齐 8300002. 山东大学岩土与结构工程研究中心, 山东 济南 250061)
  • 出版日期:2021-09-20 发布日期:2021-10-01
  • 作者简介:邓铭江(1960—),男,湖南耒阳人,2007年毕业于河海大学,水利水电建设与管理专业,博士,教授级高级工程师,中国工程院院士,主要从事水利工程建设和水资源研究工作。E-mail: xjdmj@163.com。
  • 基金资助:
    国家自然科学基金优秀青年科学基金(52022053); 国家自然科学基金面上项目(51879153); 山东省自然科学基金杰出青年科学基金(ZR201910270116

Establishment and Application of "1 km+100 m+50 m" Geological Prediction System for ExtraLong TBM Tunnels:  a Case Study on Water Supply Project in Xinjiang, China

DENG Mingjiang1, XU Zhenhao2, LIU Bin2   

  1. (1. Xinjiang Erqis River Basin Development and Construction Administration Bureau, Urumqi 830000, Xinjiang, China; 2. Geotechnical and Structural Engineering Research Institute, Shandong University, Jinan 250061, Shandong, China)

  • Online:2021-09-20 Published:2021-10-01

摘要: 超特长引水隧洞是跨流域调水工程项目的控制性工程,施工面临突涌水、塌方等诸多地质灾害风险。为研究适用于TBM法施工超特长隧洞地质灾害预报方法,通过调研地质灾害预报预警技术的发展历程与技术现状,提出TBM法施工超特长隧洞地质灾害预报面临的挑战和关键问题。针对上述挑战与难题,建立超特长隧洞TBM施工不良地质全覆盖预报系统,即“115”超前地质预报系统。该系统包括“1 km”千米级宏观地质预报、“100 m”百米级长距离地质预报和“50 m”十米级短距离精细探查预报3个层次,通过多元信息联合反演分析,实现对掌子面前方不良地质和可能由其引发的地质灾害形式的全覆盖预报。采用“115”超前地质预报系统在北疆供水二期工程地质灾害预报中开展了工程实践和应用,准确预报了隧洞施工过程中不良地质发育情况,保证了超特长隧洞TBM高效掘进和安全施工。

关键词: 超特长隧洞, TBM施工, 地质灾害, 115”超前地质预报系统

Abstract: Extralong waterdiversion tunnels are widely used in interbasin water transfer projects, and they are faced with many geohazard risks, such as water inrush, rock collapse, and large deformation. To study the geological prediction methods applicable to extralong TBM tunnels, the development history and technical status of geohazard prediction and early warning technologies are discussed. The challenges and issues faced in the development of adverse geological prediction for extralong TBM tunnels are summarized. To address these challenges, a fullcoverage geological prediction method system for extralong tunnels, namely, the "1 km+100 m+50 m" geological prediction system, is developed. Then, the main components and the implementation process of the "1 km+100 m+50 m" geological prediction system is presented. This system consists of "1 km" macroscale geological prediction (kilometer scale), "100 m" longdistance geological prediction (hundredmeter scale), and "50 m" shortdistance precise prediction (tenmeter scale). By means of multisource integrated inversion analysis, the realization of fullcoverage prediction of adverse geological conditions and possible geological disasters ahead of the tunnel face is achieved. The results from the engineering applications using the "1 km+100 m+50 m" geological prediction system in the water supply project in Xinjiang show that this system can accurately predict the adverse geological conditions and ensure the safe and efficient TBM tunneling operations for extralong tunnels.

Key words: extra-long tunnel, TBM tunneling; geological hazard, "1 km + 100 m +50 m" geological prediction system

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