海底隧道盾构异常磨损开舱辅助工法应用分析——以厦门地铁过海区间隧道工程为例

doi:10.3973/j.issn.2096-4498.2020.S1.049

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）》

隧道建设（中英文） ›› 2020, Vol. 40 ›› Issue (S1): 374-381.DOI: 10.3973/j.issn.2096-4498.2020.S1.049

海底隧道盾构异常磨损开舱辅助工法应用分析——以厦门地铁过海区间隧道工程为例

杜宝义，宋超业，贺维国

（中铁第六勘察设计院集团有限公司，天津 300131）

出版日期:2020-08-30 发布日期:2020-09-14
作者简介:杜宝义（1989—），男，河北衡水人，2015年毕业于西南交通大学，桥梁与隧道工程专业，硕士，工程师，现从事地铁设计工作。E-mail： dubaoyi89@163.com。
基金资助:
中国中铁科技开发计划（2016-重大-08）

Application Analysis of Auxiliary Technologies for Subsea Tunnel Shield Chamber Intervention in Case of Abnormal Cutter Abrasion: a Case Study on Subsea Tunnel Project of Xiamen Metro

DU Baoyi, SONG Chaoye, HE Weiguo

（China Railway Liuyuan Group Co., Ltd., Tianjin 300131, China）

Online:2020-08-30 Published:2020-09-14

摘要/Abstract

摘要： 由于海底隧道穿越复杂地层且承受高水头作用，盾构开舱的风险较一般陆域盾构隧道更高，选择一种安全、高效、经济的开舱辅助工法极其重要。依托厦门地铁3号线及2号线过海区间隧道工程实例，介绍冻结法、注浆加固结合衡盾泥护壁法在海底隧道盾构开舱中的应用；基于场区水文地质特性及既往应用效果，对2种工法的地层适应性和安全性进行比较；将开舱的工期及费用按照地层加固、刀具修复2个阶段进行划分，并分析其分布比例，建立单位修复耗时（耗资）与工作量之间的关系表达式。分析认为： 1）对于海底砂质土地层而言，既有注浆工艺的质量可靠性不满足常压开舱的要求，当地层稳定性不佳且开舱时间较长时，建议借助衡盾泥泥膜进行带压作业；冻结法的地层适应性强，封水性好，在严密监控的条件下满足常压开舱要求。 2）冻结法在地层加固及解冻阶段的工期和费用较高，达到注浆加固法的1.6倍以上，但是舱内常压动火作业的效率为带压工况的7.1倍，综合比较，当刀具修复工作量较大时冻结法更具优势。

关键词: 海底隧道, 盾构开舱, 辅助工法, 冻结法, 衡盾泥, 注浆加固

Abstract: As the subsea tunnel is designed to pass through the complex strata and withstand high water pressure, the risk of shield chamber intervention tends to be higher compared to general landbased shield tunnels. Therefore, it is essential to develop a kind of safe, highly efficient and costeffective auxiliary chamber intervention technology. In this paper, typical technologies of freezing method and grouting combined with paste HDN film method are introduced and applied to the subsea tunnel projects on Lines 3 and 2 of Xiamen Metro. The recommended methods are compared in terms of adaptability and safety based on the hydrogeological characteristics and the previous application effect. The construction period and cost are divided into two stages, i.e. soil reinforcement and cutter repair, the distribution proportion of them is analyzed, and the relationship between unit repair time (cost) and workload is established. The analytical results show that: (1) With regard to the seabed sandy soil layer, the quality of the existing grouting technology fails to meet the requirements on reliability for chamber intervention under atmospheric pressure, and it is recommended to conduct hyperbaric operation with the assistance of paste HDN film in case of unstable strata and longterm chamber intervention; the freezing method demonstrates an excellent adaptability to sandy soil layer and a high level of watertightness, and which could meet the requirements of atmospheric operation under the context of close monitoring. (2) The construction period and cost required by the freezing method during the soil reinforcement and thawing stage exceed 1.6 times that as required by the grouting reinforcement method; while the efficiency of welding work under atmospheric pressure inside the chamber is 7.1 times that under hyperbaric condition; thus it could be concluded that the freezing method is more advantageous when the workload of cutter repair is high.

Key words: , subsea tunnel, shield chamber intervention, auxiliary construction technologies, freezing method, paste HDN, grouting reinforcement

中图分类号:

U 455.43

杜宝义, 宋超业, 贺维国.

海底隧道盾构异常磨损开舱辅助工法应用分析——以厦门地铁过海区间隧道工程为例 [J]. 隧道建设, 2020, 40(S1): 374-381.

DU Baoyi, SONG Chaoye, HE Weiguo. Application Analysis of Auxiliary Technologies for Subsea Tunnel Shield Chamber Intervention in Case of Abnormal Cutter Abrasion: a Case Study on Subsea Tunnel Project of Xiamen Metro[J]. Tunnel Construction, 2020, 40(S1): 374-381.

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海底隧道盾构异常磨损开舱辅助工法应用分析——以厦门地铁过海区间隧道工程为例

Application Analysis of Auxiliary Technologies for Subsea Tunnel Shield Chamber Intervention in Case of Abnormal Cutter Abrasion: a Case Study on Subsea Tunnel Project of Xiamen Metro

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