Monitoring of shaft excavations in clay
Author | Torisu, S.S. |
Author | Faustin, N.E. |
Author | Elshafie, M.Z.E.B. |
Author | Black, M. |
Author | Soga, K. |
Author | Mair, R.J. |
Available date | 2024-08-05T07:19:21Z |
Publication Date | 2019 |
Publication Name | International Conference on Smart Infrastructure and Construction 2019, ICSIC 2019: Driving Data-Informed Decision-Making |
Resource | Scopus |
Abstract | Field observations of infrastructure performance, during and following construction, are vital for efficient design of infrastructure in subsequent projects. Fibre optic sensing technology offers considerable benefits because it provides a continuous measurement profile along its length whereas conventional monitoring instrumentation, such as strain gauges, only offer discrete measurements. This paper describes two case studies in which fibre optic sensors were used to monitor the bending of heavily reinforced diaphragm walls installed during the construction of the Elizabeth Line (formerly called Crossrail), in London, UK. The first case study was a 30 m diameter, 44 m deep circular shaft constructed to launch the tunnel boring machines. The second case study was an almost rectangular ventilation and access shaft, 65 m in length, 16 m to 18 m wide and up to 36 m deep. The fibre optic sensing system was secured to the reinforcement cages of the diaphragm wall panels to measure mechanical and thermal strains during excavation. This allowed the effect of temperature changes to be accounted for. Field measurements were taken at regular intervals during excavation of both shafts. The two case study shafts, details of the fibre optic sensing system and some of the strain measurements are presented in this paper. The measurements demonstrate the effectiveness of fibre optics for structural monitoring of diaphragm wall shaft linings. They also confirm that fibre optic monitoring has an important role to play in performance-based design - in optimising and improving future designs. |
Sponsor | The authors would like to thank the Innovate UK (formerly the Technology Strategy Board) and Crossrail Limited for funding this research. They also express gratitude to Crossrail Limited for permission to publish the field data and site photographs. The support of Carillion, Costain and Cementation Skanska is also gratefully acknowledged. In addition, special thanks are given to Dr Chang Ye Gue, Dr. Fei Wang, Koson Janmonta, Masanari Nakashima, Mohamad Alserdare, Peter Knott, Dr Phil Smith, Dr Tina Schwamb, Thomas Smith and Dr Yue Ouyang. This research would not have been possible without their help and support with the fieldwork. |
Language | en |
Publisher | ICE Publishing |
Subject | Boring machines (machine tools) Construction equipment Decision making Excavation Fiber optics Fibers Strain Strain measurement Continuous measurements Conventional monitoring Diaphragm wall panels Effect of temperature Performance based design Sensing technology Structural monitoring Tunnel boring machines Reinforcement |
Type | Conference Paper |
Pagination | 655-664 |
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Civil and Environmental Engineering [851 items ]