Experience from short-and long-term performance of deep excavations in soft sensitive clays

Tornborg, Johannes; Karlsson, Magnus K.; Kullingsjö, Anders; Karstunen, Minna

doi:10.1088/1755-1315/710/1/012053

IOP Conf. Ser.: Earth Environ. Sci.

2021

DOI: 10.1088/1755-1315/710/1/012053

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Experience from short-and long-term performance of deep excavations in soft sensitive clays

Johannes Tornborg

Magnus K. Karlsson

Anders Kullingsjö

et al.

Abstract: Design of excavations and permanent underground structures requires accurate predictions of e.g. deformations and earth pressures for both the short-and long-term. As excavation depths increase and/or the proximity to adjacent infrastructure decreases, there is a need to improve and develop existing design methods and validate numerical models. The first part of this paper revisits the measurement data from a previous excavation, the Göta Tunnel in Gothenburg, Sweden, in order to benchmark a contemporary const… Show more

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2024

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Monitoring the construction of a deep energy-from-waste bunker in soft clay and peat

Hensman,

Orazalin,

Sheil

2024

Géotechnique

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This paper describes the monitoring of the construction of a deep underground waste storage bunker for the PROTOS Energy-from-Waste Facility in Chester, UK. A key element of the construction process was a 12 m deep excavation in soft clays and peats which was supported by a complex ‘combi-wall’ cofferdam comprising alternate tube and sheet piles, a reinforced concrete (RC) capping beam, and two levels of internal bracing. The permanent bunker RC structure was constructed within the excavation using a bottom-up approach. The primary aim of this monitoring programme was to assess the performance of the composite support system through measured cofferdam wall deflections, bracing member loads, and site and bunker water levels. An additional objective of the monitoring was to provide the site team with real-time feedback to inform the construction process. Interpretation of the monitored data allows for a quantitative assessment of the influence of various construction activities on the responses of the support system. The monitored behaviour shows that the high stiffness and embedment depth of the supporting structure, combined with careful control of groundwater levels, significantly reduced risks associated with deep excavation construction in challenging ground conditions.

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Monitoring the construction of a deep energy-from-waste bunker in soft clay and peat

Hensman,

Orazalin,

Sheil

2024

Géotechnique

View full text Add to dashboard Cite

show abstract

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Experience from short-and long-term performance of deep excavations in soft sensitive clays

Cited by 1 publication

References 5 publications

Monitoring the construction of a deep energy-from-waste bunker in soft clay and peat

Monitoring the construction of a deep energy-from-waste bunker in soft clay and peat

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