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Data-driven spatio-temporal analysis of consolidation for rapid reclamation.

Authors :
Shi, Chao
Wang, Yu
Source :
Géotechnique. Jun2024, Vol. 74 Issue 7, p676-696. 21p.
Publication Year :
2024

Abstract

Spatial extension of lands through rapid reclamation is attractive for congested coastal megacities, although reclamations might suffer from project delay and budget overrun, often due to encountering unforeseen ground conditions. To accelerate reclamations, accurate prediction of soil consolidation over a construction duration of multiple years is needed for reclaimed lands, which often contain spatially varying subsurface stratigraphy and soil parameters. This calls for a spatio-temporal analysis of consolidation with a sound understanding of subsurface stratigraphic alternations of fine/coarse-grained soils and spatial variability of consolidation parameters (e.g. permeability). In this study, a unified framework, capable of simultaneously modelling stratigraphic variation and spatial variability of soil properties through machine learning of limited site investigation data, is combined with the finite-element method and Monte Carlo simulation for spatio-temporal consolidation analysis of reclaimed lands. The proposed method is applied to a real reclamation project in Hong Kong. Results indicate that the proposed method can accurately characterise subsurface geological cross-sections and spatially varying soil permeability with quantified uncertainty. Ignorance of spatial variability of soil permeability may result in an underestimation of consolidation time and an overestimation of undrained shear strength gain, and thus pose significant risks to reclamation projects. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00168505
Volume :
74
Issue :
7
Database :
Academic Search Index
Journal :
Géotechnique
Publication Type :
Academic Journal
Accession number :
177377671
Full Text :
https://doi.org/10.1680/jgeot.22.00016