Tolerably mobile subsea foundations – observations of performance
Tolerably mobile subsea foundations – observations of performance
Increasing demands for oil and gas exploration in deep water with soft seabed conditions are resulting in the size and weight of subsea shallow foundations stretching the capabilities of installation technologies. One innovation to reduce foundation footprints involves designing foundations to move in a tolerable manner to absorb applied loads rather than being engineered to resist these loads and remain stationary. Critical design considerations are the evolution of foundation capacity and the mode of foundation displacement. The foundation should be designed to slide with acceptable settlement and rotation to prevent overstressing the joints with connected pipelines. This paper presents observations from centrifuge model tests of a mat foundation designed to slide under applied loading. The foundation is subjected to a simulated lifetime of operation, with many cycles of sliding and intervening periods of consolidation. The results provide insights to assist design, including a remarkable rise in the lateral foundation resistance over the sliding events, through repeated episodes of shearing and reconsolidation, and quantification of the accumulated settlements and rotations. The foundation is shown to translate with minimal rotation. The settlement between sliding events is more significant. This is due to the tendency for soft clay to contract on shearing, as excess pore pressures generated during sliding subsequently dissipate. The sliding-induced consolidation settlements control the tolerability of the performance of the mobile foundation.
Bearing capacity, Consolidation, Settlement
895-909
Cocjin, M. L.
42ee9efc-8d8a-4330-ae75-00665def8fd3
Gourvenec, S. M.
6ff91ad8-1a91-42fe-a3f4-1b5d6f5ce0b8
White, D. J.
a986033d-d26d-4419-a3f3-20dc54efce93
Randolph, M. F.
75caa33a-e630-4ae8-84cd-758797bf9633
November 2014
Cocjin, M. L.
42ee9efc-8d8a-4330-ae75-00665def8fd3
Gourvenec, S. M.
6ff91ad8-1a91-42fe-a3f4-1b5d6f5ce0b8
White, D. J.
a986033d-d26d-4419-a3f3-20dc54efce93
Randolph, M. F.
75caa33a-e630-4ae8-84cd-758797bf9633
Cocjin, M. L., Gourvenec, S. M., White, D. J. and Randolph, M. F.
(2014)
Tolerably mobile subsea foundations – observations of performance.
Geotechnique, 64 (11), .
(doi:10.1680/geot.14.P.098).
Abstract
Increasing demands for oil and gas exploration in deep water with soft seabed conditions are resulting in the size and weight of subsea shallow foundations stretching the capabilities of installation technologies. One innovation to reduce foundation footprints involves designing foundations to move in a tolerable manner to absorb applied loads rather than being engineered to resist these loads and remain stationary. Critical design considerations are the evolution of foundation capacity and the mode of foundation displacement. The foundation should be designed to slide with acceptable settlement and rotation to prevent overstressing the joints with connected pipelines. This paper presents observations from centrifuge model tests of a mat foundation designed to slide under applied loading. The foundation is subjected to a simulated lifetime of operation, with many cycles of sliding and intervening periods of consolidation. The results provide insights to assist design, including a remarkable rise in the lateral foundation resistance over the sliding events, through repeated episodes of shearing and reconsolidation, and quantification of the accumulated settlements and rotations. The foundation is shown to translate with minimal rotation. The settlement between sliding events is more significant. This is due to the tendency for soft clay to contract on shearing, as excess pore pressures generated during sliding subsequently dissipate. The sliding-induced consolidation settlements control the tolerability of the performance of the mobile foundation.
Text
2014 Geotechnique 64_11_895-909 Cocjin et al.
- Accepted Manuscript
More information
e-pub ahead of print date: November 2014
Published date: November 2014
Keywords:
Bearing capacity, Consolidation, Settlement
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Local EPrints ID: 414521
URI: http://eprints.soton.ac.uk/id/eprint/414521
ISSN: 0016-8505
PURE UUID: 0387eb21-2cf4-430c-bd09-c90ddabf7e06
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Date deposited: 03 Oct 2017 16:31
Last modified: 16 Mar 2024 04:31
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Author:
M. L. Cocjin
Author:
M. F. Randolph
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