Hydrodynamic forces on near-bed small diameter cables and pipelines in currents, waves and combined flow
Hydrodynamic forces on near-bed small diameter cables and pipelines in currents, waves and combined flow
The on-bottom stability design of subsea pipelines and cables is important to ensure safety and reliability but can be challenging to achieve, particularly for renewable energy projects which are preferentially located in high energy metocean environments. Often these conditions lead to the seabed being stripped of all loose sediment, leaving the cables to rest on exposed bedrock where roughness features can be similar in size to the cables. As offshore renewable energy projects progress from concept demonstration to commercial-scale developments, new approaches are needed to capture the relevant physics for small diameter cables on rocky seabeds to reduce the costs and risks of export power transmission and increase operational reliability. These same considerations also apply to the cables and small diameter pipes – such as umbilicals– required by oil and gas projects located on rocky seabeds.Recent experimental testing using the University of Western Australia's unique Large O-tube has enabled the experimental measurement of hydrodynamic forces on small diameter cables and pipes in proximity to smooth and rough beds. The tested conditions extend well beyond the existing published parameter range including much higher KC conditions together with seabed roughness which is comparable in size to the diameter. The results provide design data of great relevance to the ongoing development of marine renewable and conventional oil and gas projects, especially on rocky seabeds. This paper presents a summary of the existing knowledge on the subject as a preface to preliminary test results and gives tentative conclusions on the likely outcomes from this work
hydrodynamic forces, offshore, ocean engineering, Arctic, seabed
1-12
The American Society of Mechanical Engineers
Griffiths, Terry
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Teng, Yunfei
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Cheng, Liang
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An, Hongwei
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Draper, Scott
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Mohr, Henning
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Fogliani, Antonino
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Mariani, Alessio
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White, David
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9 June 2019
Griffiths, Terry
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Teng, Yunfei
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Cheng, Liang
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An, Hongwei
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Draper, Scott
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Mohr, Henning
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Fogliani, Antonino
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Mariani, Alessio
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White, David
a986033d-d26d-4419-a3f3-20dc54efce93
Griffiths, Terry, Teng, Yunfei, Cheng, Liang, An, Hongwei, Draper, Scott, Mohr, Henning, Fogliani, Antonino, Mariani, Alessio and White, David
(2019)
Hydrodynamic forces on near-bed small diameter cables and pipelines in currents, waves and combined flow.
In Proceedings of the ASME 2019 38th International Conference on Ocean, Offshore and Arctic Engineering.
The American Society of Mechanical Engineers.
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
The on-bottom stability design of subsea pipelines and cables is important to ensure safety and reliability but can be challenging to achieve, particularly for renewable energy projects which are preferentially located in high energy metocean environments. Often these conditions lead to the seabed being stripped of all loose sediment, leaving the cables to rest on exposed bedrock where roughness features can be similar in size to the cables. As offshore renewable energy projects progress from concept demonstration to commercial-scale developments, new approaches are needed to capture the relevant physics for small diameter cables on rocky seabeds to reduce the costs and risks of export power transmission and increase operational reliability. These same considerations also apply to the cables and small diameter pipes – such as umbilicals– required by oil and gas projects located on rocky seabeds.Recent experimental testing using the University of Western Australia's unique Large O-tube has enabled the experimental measurement of hydrodynamic forces on small diameter cables and pipes in proximity to smooth and rough beds. The tested conditions extend well beyond the existing published parameter range including much higher KC conditions together with seabed roughness which is comparable in size to the diameter. The results provide design data of great relevance to the ongoing development of marine renewable and conventional oil and gas projects, especially on rocky seabeds. This paper presents a summary of the existing knowledge on the subject as a preface to preliminary test results and gives tentative conclusions on the likely outcomes from this work
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OMAE2019-95557
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Accepted/In Press date: 3 May 2019
Published date: 9 June 2019
Venue - Dates:
Proceedings of the ASME 2019 38th International conference on Ocean, Offshore and Arctic Engineering OMAE2019: OMAE2019, , Glasgow, United Kingdom, 2019-06-09 - 2019-06-14
Keywords:
hydrodynamic forces, offshore, ocean engineering, Arctic, seabed
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Local EPrints ID: 432764
URI: http://eprints.soton.ac.uk/id/eprint/432764
PURE UUID: 0d18506d-ef84-447f-a3e5-4f7890a3fb80
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Date deposited: 26 Jul 2019 16:30
Last modified: 16 Mar 2024 04:32
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Contributors
Author:
Terry Griffiths
Author:
Yunfei Teng
Author:
Liang Cheng
Author:
Hongwei An
Author:
Scott Draper
Author:
Henning Mohr
Author:
Antonino Fogliani
Author:
Alessio Mariani
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