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Increasing confidence in the prediction of axial friction factors for offshore pipelines and cables

Increasing confidence in the prediction of axial friction factors for offshore pipelines and cables
Increasing confidence in the prediction of axial friction factors for offshore pipelines and cables

Seabed resistance to the axial movement of pipelines and cables – defined through use of an ‘axial friction factor’ – is key to predicting axial expansion, lateral buckling, pull-in forces and hydrodynamic stability. Simple pipeline-and seabed zone-specific friction factors are often used in pipeline analyses, despite the complexity of estimating the total restraint. This paper introduces various testing approaches and penetrometer tools – including pipes, toroids, rings and plates – used to characterise this interface behaviour. Centrifuge modelling using field samples of fine and course-grained soils was carried out alongside more conventional direct shear interface and tilt table testing. The results highlight some of the complexity that arises because resistance is influenced by interface roughness, stress level, pipeline settlement, and ‘wedging’. The results show the importance of measuring soil-specific interface properties rather than using generic estimates and demonstrate novel techniques to measure these properties.

2754-6322
674-681
Society for Underwater Technology
O’beirne, C.P.
4730a8bb-2796-4020-b349-2fcdc8962da4
Watson, P.G.
236d28ae-367b-41cd-8327-fcc488e931ef
Bransby, M.F.
9d0088f1-0395-4279-9bf1-9e079fd1357a
Low, H.E.
8a9ab90a-edd1-46a0-8355-cdd888f40cf7
White, D.J.
a986033d-d26d-4419-a3f3-20dc54efce93
Gilbert, R.B.
ebdbdff3-6f41-4f76-9d85-3a819e564515
Hussien, A.M.
dac34ac2-8714-48b0-803f-cab5c2bd569c
O’beirne, C.P.
4730a8bb-2796-4020-b349-2fcdc8962da4
Watson, P.G.
236d28ae-367b-41cd-8327-fcc488e931ef
Bransby, M.F.
9d0088f1-0395-4279-9bf1-9e079fd1357a
Low, H.E.
8a9ab90a-edd1-46a0-8355-cdd888f40cf7
White, D.J.
a986033d-d26d-4419-a3f3-20dc54efce93
Gilbert, R.B.
ebdbdff3-6f41-4f76-9d85-3a819e564515
Hussien, A.M.
dac34ac2-8714-48b0-803f-cab5c2bd569c

O’beirne, C.P., Watson, P.G., Bransby, M.F., Low, H.E., White, D.J., Gilbert, R.B. and Hussien, A.M. (2023) Increasing confidence in the prediction of axial friction factors for offshore pipelines and cables. In Offshore Site Investigation Geotechnics 9th International Conference Proceeding. Society for Underwater Technology. pp. 674-681 . (doi:10.3723/BVLJ5785).

Record type: Conference or Workshop Item (Paper)

Abstract

Seabed resistance to the axial movement of pipelines and cables – defined through use of an ‘axial friction factor’ – is key to predicting axial expansion, lateral buckling, pull-in forces and hydrodynamic stability. Simple pipeline-and seabed zone-specific friction factors are often used in pipeline analyses, despite the complexity of estimating the total restraint. This paper introduces various testing approaches and penetrometer tools – including pipes, toroids, rings and plates – used to characterise this interface behaviour. Centrifuge modelling using field samples of fine and course-grained soils was carried out alongside more conventional direct shear interface and tilt table testing. The results highlight some of the complexity that arises because resistance is influenced by interface roughness, stress level, pipeline settlement, and ‘wedging’. The results show the importance of measuring soil-specific interface properties rather than using generic estimates and demonstrate novel techniques to measure these properties.

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More information

Published date: 1 January 2023
Venue - Dates: 9th International Conference on Innovative Geotechnologies for Energy Transition, 2023, , London, United Kingdom, 2023-09-12 - 2023-09-14

Identifiers

Local EPrints ID: 497657
URI: http://eprints.soton.ac.uk/id/eprint/497657
DOI: doi:10.3723/BVLJ5785
ISSN: 2754-6322
PURE UUID: 51e3a8cf-d371-4973-9a0c-2ff7140ceaf2
ORCID for D.J. White: ORCID iD orcid.org/0000-0002-2968-582X

Catalogue record

Date deposited: 29 Jan 2025 17:30
Last modified: 30 Jan 2025 03:02

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Contributors

Author: C.P. O’beirne
Author: P.G. Watson
Author: M.F. Bransby
Author: H.E. Low
Author: D.J. White ORCID iD
Author: R.B. Gilbert
Author: A.M. Hussien

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