Permanent tunnel support with reinforced shotcrete arches and forepoling in over-consolidated till and weathered rock. A case study based on the construction of the Bergås tunnel, Norway

IF 6.7 1区 工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY Tunnelling and Underground Space Technology Pub Date : 2024-12-19 DOI:10.1016/j.tust.2024.106256
Jorge Terron-Almenara, Karl Gunnar Holter, Pål Drevland Jakobsen, Bent Aagaard, Alf Kristian Lund
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Abstract

Ground support in tunnels excavated through weak ground conditions in Norway has normally consisted of reinforced shotcrete methods. However, in cases where exceptionally poor ground or soil tunnel conditions were expected, final support consisted of cast-in-place solutions designed in advance. Although reinforced shotcrete methods have proved satisfactory for a wide range of weak ground conditions, the adequacy of such support method solely to act as the final, permanent support and fully substitute cast concrete liner in soil tunnels has not been realized until the recent construction of the Bergås highway tunnel in northern Norway. In this tunnel, an unexpected portion of 70 linear m of the tunnel consisted of sedimentary deposits of glacial origin (tills) and a weathered, soil-like rock mass. In the present study, the ground behavior and the performance of reinforced shotcrete arches as permanent, final support in this soil portion are investigated. The findings suggest that the compact and over-consolidated tills pose favorable excavation conditions as evidenced by the monitored ground stability under full face excavation passes, and the low support loading during the advance through the soil zone. As such, a pragmatic design considering a permanent functional and stable ground support made of reinforced arches in the soil section was possible from the combination of the elements of the Scandinavian hard rock tunnelling with the principles of weak ground engineering, and pre-stabilization methods with grouted forepoling. The permanent tunnel support finally consisted of ribs of reinforced shotcrete (RRS), fiber reinforced shotcrete (FRS) and fully grouted steel rebar rock bolts, which substituted the pre-determined cast concrete lining that is traditionally used in soft tunnelling conditions. The approach is therefore innovative as it considers a cost-effective alternative with significantly lower concrete consumption, on the basis of a shotcrete-based support solution designed from a combination of elaborated design work, monitoring, ground characterization, and advanced numerical analyses.
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在挪威,通过软弱地层挖掘隧道的地面支撑通常采用加固喷射混凝土的方法。然而,在预计地表或隧道土壤条件异常恶劣的情况下,最终支护则采用事先设计好的现浇方案。尽管加固喷射混凝土方法已被证明在各种软弱地层条件下都能令人满意,但直到最近挪威北部 Bergås 高速公路隧道的建设,人们才意识到这种支护方法仅作为土壤隧道的最终永久支护和完全替代浇注混凝土衬砌是不够的。在这条隧道中,有 70 米长的隧道意外地由冰川沉积物(淤泥)和风化的土状岩体组成。在本研究中,我们对在这部分土壤中作为永久性最终支撑的加固喷射混凝土拱桥的地面行为和性能进行了研究。研究结果表明,密实和过度固结的淤泥构成了有利的开挖条件,这一点可以从监测到的全断面开挖条件下的地面稳定性,以及在穿越土壤区域时的低支撑荷载得到证明。因此,结合斯堪的纳维亚硬岩隧道工程的要素、软弱地层工程的原理以及灌浆预压的预稳定方法,在土层部分采用加固拱形结构的永久性功能稳定地层支护成为可能。隧道永久支护最终由加固喷射混凝土(RRS)、纤维加固喷射混凝土(FRS)和全灌浆钢筋锚杆组成,取代了传统上在软质隧道条件下使用的预制混凝土衬砌。因此,这种方法具有创新性,因为它考虑到了一种成本效益高的替代方法,在基于喷射混凝土的支护解决方案的基础上,结合精心设计的工作、监测、地层特征描述和先进的数值分析,大大降低了混凝土消耗量。
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来源期刊
Tunnelling and Underground Space Technology
Tunnelling and Underground Space Technology 工程技术-工程:土木
CiteScore
11.90
自引率
18.80%
发文量
454
审稿时长
10.8 months
期刊介绍: Tunnelling and Underground Space Technology is an international journal which publishes authoritative articles encompassing the development of innovative uses of underground space and the results of high quality research into improved, more cost-effective techniques for the planning, geo-investigation, design, construction, operation and maintenance of underground and earth-sheltered structures. The journal provides an effective vehicle for the improved worldwide exchange of information on developments in underground technology - and the experience gained from its use - and is strongly committed to publishing papers on the interdisciplinary aspects of creating, planning, and regulating underground space.
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