Seabed friction on carbonate soils: Physical modelling of axial pipe-soil friction
Seabed friction on carbonate soils: Physical modelling of axial pipe-soil friction
This paper is concerned with the 'friction' and 'sliding resistance' that can be mobilised on the unusual carbonate sediments prevalent across many parts of the world, including Offshore Australia. Physical centrifuge model testing was conducted to evaluate the axial pipe-soil resistance on a soil obtained from the North West Shelf, offshore Australia. Tests were performed at a range of speeds, spanning drained/undrained conditions, interspersed with consolidation periods. The resulting axial friction factors are generally higher than is often assumed in conventional design practice for pipeline end expansion or buckling and walking analysis, which is consistent with the high friction angles and dilatancy of these angular carbonate soils. In addition, the results demonstrate the effect that soil drainage response and history of pipeline sliding movements can have on the axial-pipe friction. Overall, the results highlight the importance of making site-specific assessments of seabed sliding resistance, rather than rely on non-sitespecific results (particularly from different regions) that may display a very different soil response. Lastly, recommendations are made for design assessments of the sliding resistance of carbonate soils.
3342-3358
Offshore Technology Conference
Boylan, N.P.
a74ded07-8f6f-4198-bdc9-76e9693091b1
White, D.J.
a986033d-d26d-4419-a3f3-20dc54efce93
Brunning, P.
2d3dc196-72b8-4aef-ba47-74914a1d35d0
2014
Boylan, N.P.
a74ded07-8f6f-4198-bdc9-76e9693091b1
White, D.J.
a986033d-d26d-4419-a3f3-20dc54efce93
Brunning, P.
2d3dc196-72b8-4aef-ba47-74914a1d35d0
Boylan, N.P., White, D.J. and Brunning, P.
(2014)
Seabed friction on carbonate soils: Physical modelling of axial pipe-soil friction.
In Offshore Technology Conference, 05-08 May, Houston, Texas.
vol. 5,
Offshore Technology Conference.
.
(doi:10.4043/25398-MS).
Record type:
Conference or Workshop Item
(Paper)
Abstract
This paper is concerned with the 'friction' and 'sliding resistance' that can be mobilised on the unusual carbonate sediments prevalent across many parts of the world, including Offshore Australia. Physical centrifuge model testing was conducted to evaluate the axial pipe-soil resistance on a soil obtained from the North West Shelf, offshore Australia. Tests were performed at a range of speeds, spanning drained/undrained conditions, interspersed with consolidation periods. The resulting axial friction factors are generally higher than is often assumed in conventional design practice for pipeline end expansion or buckling and walking analysis, which is consistent with the high friction angles and dilatancy of these angular carbonate soils. In addition, the results demonstrate the effect that soil drainage response and history of pipeline sliding movements can have on the axial-pipe friction. Overall, the results highlight the importance of making site-specific assessments of seabed sliding resistance, rather than rely on non-sitespecific results (particularly from different regions) that may display a very different soil response. Lastly, recommendations are made for design assessments of the sliding resistance of carbonate soils.
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Published date: 2014
Venue - Dates:
Offshore Technology Conference 2014, OTC 2014, , Houston, United States, 2014-05-05 - 2014-05-08
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Local EPrints ID: 420228
URI: http://eprints.soton.ac.uk/id/eprint/420228
PURE UUID: c0b7e947-a629-4074-936a-8c9fc979ddae
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Date deposited: 02 May 2018 16:30
Last modified: 16 Mar 2024 04:32
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Author:
N.P. Boylan
Author:
P. Brunning
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