Predicting the as-laid embedment of surface-laid pipelines and cables in sand wave regions
Predicting the as-laid embedment of surface-laid pipelines and cables in sand wave regions
Predicting the as-laid embedment of surface-laid pipelines and cables is important for estimating their in-service response. To date, design approaches have only considered flat seabed conditions. The as-laid embedment is estimated using vertical 'lay down' seabed springs that are calculated allowing for the pipeline geometry and weight as well as its interaction with the seabed during the dynamic lay process. This paper addresses the important and different case where pipelines and cables are laid on a seabed with bedform features (e.g. sand waves, mega ripples or ripples). The measured as-laid embedment for a pipeline installed within a region of sand waves on the North West Shelf of Australia is examined and compared with numerical simulations of the lay process. Good agreement with the field embedment is obtained for both flat and sand wave zones. However, this is achieved using soil springs that are around 10 times softer than prescribed by current recommended practice. This is attributed to the neglect of dynamic lay effects in design guidance for sands and the high compressibility of carbonate soils. The field data and the simulations both show that the pipe embedment varies throughout each sand wave. The maximum embedment near the sand wave peak is greater by a factor of up to 5 compared to the minimum embedment found near the sand wave trough. The embedment profile is phaseshifted from the sand wave profile by 10 - 20% of the sand wave length.
As-laid embedment, cables, pipe-lay analysis, pipelines, sand waves
American Society of Mechanical Engineers (ASME)
Hou, Zhechen
288283d7-e0c3-4494-ad52-6aa978e32047
Bransby, Fraser
a110e577-95b2-43af-8ea5-9d076c7ccab6
Watson, Phil
236d28ae-367b-41cd-8327-fcc488e931ef
White, David
a986033d-d26d-4419-a3f3-20dc54efce93
Ballard, Jean Christophe
23ea4838-f0d1-4401-a886-5925951d4754
Delvosal, Pierre
f89ef236-72fa-484a-bbf2-9a97d5c08cc1
Denis, Raphael
2e3d227d-cad4-4b15-9d18-95921192f89e
Low, Han Eng
8a9ab90a-edd1-46a0-8355-cdd888f40cf7
22 September 2023
Hou, Zhechen
288283d7-e0c3-4494-ad52-6aa978e32047
Bransby, Fraser
a110e577-95b2-43af-8ea5-9d076c7ccab6
Watson, Phil
236d28ae-367b-41cd-8327-fcc488e931ef
White, David
a986033d-d26d-4419-a3f3-20dc54efce93
Ballard, Jean Christophe
23ea4838-f0d1-4401-a886-5925951d4754
Delvosal, Pierre
f89ef236-72fa-484a-bbf2-9a97d5c08cc1
Denis, Raphael
2e3d227d-cad4-4b15-9d18-95921192f89e
Low, Han Eng
8a9ab90a-edd1-46a0-8355-cdd888f40cf7
Hou, Zhechen, Bransby, Fraser, Watson, Phil, White, David, Ballard, Jean Christophe, Delvosal, Pierre, Denis, Raphael and Low, Han Eng
(2023)
Predicting the as-laid embedment of surface-laid pipelines and cables in sand wave regions.
In ASME 2023 42nd International Conference on Ocean, Offshore and Arctic Engineering: Materials Technology; Pipelines, Risers, and Subsea Systems.
vol. 3,
American Society of Mechanical Engineers (ASME)..
(doi:10.1115/OMAE2023-104434).
Record type:
Conference or Workshop Item
(Paper)
Abstract
Predicting the as-laid embedment of surface-laid pipelines and cables is important for estimating their in-service response. To date, design approaches have only considered flat seabed conditions. The as-laid embedment is estimated using vertical 'lay down' seabed springs that are calculated allowing for the pipeline geometry and weight as well as its interaction with the seabed during the dynamic lay process. This paper addresses the important and different case where pipelines and cables are laid on a seabed with bedform features (e.g. sand waves, mega ripples or ripples). The measured as-laid embedment for a pipeline installed within a region of sand waves on the North West Shelf of Australia is examined and compared with numerical simulations of the lay process. Good agreement with the field embedment is obtained for both flat and sand wave zones. However, this is achieved using soil springs that are around 10 times softer than prescribed by current recommended practice. This is attributed to the neglect of dynamic lay effects in design guidance for sands and the high compressibility of carbonate soils. The field data and the simulations both show that the pipe embedment varies throughout each sand wave. The maximum embedment near the sand wave peak is greater by a factor of up to 5 compared to the minimum embedment found near the sand wave trough. The embedment profile is phaseshifted from the sand wave profile by 10 - 20% of the sand wave length.
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More information
Published date: 22 September 2023
Venue - Dates:
ASME 2023 42nd International Conference on Ocean, Offshore and Arctic Engineering, OMAE 2023, , Melbourne, Australia, 2023-06-11 - 2023-06-16
Keywords:
As-laid embedment, cables, pipe-lay analysis, pipelines, sand waves
Identifiers
Local EPrints ID: 497636
URI: http://eprints.soton.ac.uk/id/eprint/497636
PURE UUID: 9be9f059-b00d-4118-a4fd-cece1d0a3047
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Date deposited: 28 Jan 2025 18:01
Last modified: 29 Jan 2025 02:55
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Contributors
Author:
Zhechen Hou
Author:
Fraser Bransby
Author:
Phil Watson
Author:
Jean Christophe Ballard
Author:
Pierre Delvosal
Author:
Raphael Denis
Author:
Han Eng Low
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