Two-phase model for simulating current-induced scour beneath subsea pipelines at different initial elevations

When a subsea pipeline is laid on an uneven seabed, the pipeline can have an initial elevation, potentially compromising its on-bottom stability; scouring due to flow conditions around the pipe can further exacerbate the problem. We assess the capability of the two-phase Eulerian-Eulerian OpenFOAM s...

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Main Authors: Lee, JY, McInerney, JBT, Hardjanto, FA, Chai, S, Cossu, R, Leong, ZQ, Forrest, AL
Format: Conference Object
Language:unknown
Published: American Society of Mechanical Engineers 2018
Subjects:
two-phase model
scour
subsea pipelines
initial elevations
Arctic
Online Access:https://eprints.utas.edu.au/45126/
id ftunivtasmania:oai:eprints.utas.edu.au:45126
record_format openpolar
spelling ftunivtasmania:oai:eprints.utas.edu.au:45126 2023-05-15T14:27:16+02:00 Two-phase model for simulating current-induced scour beneath subsea pipelines at different initial elevations Lee, JY McInerney, JBT Hardjanto, FA Chai, S Cossu, R Leong, ZQ Forrest, AL 2018 https://eprints.utas.edu.au/45126/ unknown American Society of Mechanical Engineers Lee, JY orcid:0000-0001-5884-7077 , McInerney, JBT, Hardjanto, FA orcid:0000-0002-9489-7474 , Chai, S orcid:0000-0001-5186-4456 , Cossu, R, Leong, ZQ orcid:0000-0002-0644-1822 and Forrest, AL 2018 , 'Two-phase model for simulating current-induced scour beneath subsea pipelines at different initial elevations', paper presented at the ASME 2018 37th International Conference on Ocean, Offshore and Arctic Engineering (OMAE2018), 17-22 July 2018, Madrid, Spain. two-phase model scour subsea pipelines initial elevations Conference or Workshop Item PeerReviewed 2018 ftunivtasmania 2022-03-07T23:17:04Z When a subsea pipeline is laid on an uneven seabed, the pipeline can have an initial elevation, potentially compromising its on-bottom stability; scouring due to flow conditions around the pipe can further exacerbate the problem. We assess the capability of the two-phase Eulerian-Eulerian OpenFOAM solver, twoPhaseEulerFoam, in terms of predicting the equilibrium scour depth beneath a pipe at different initial elevations under a steady current for the live bed condition. The predictions were found to be in good agreement with published experimental and numerical results; however, similar to a recent study involving another two-phase Eulerian-Eulerian model, the scour time scale was under-predicted. The predicted equilibrium scour depth was seen to decrease with an increase in the initial pipe elevation. The numerical results were also compared to predictions that were made using previous empirical equations. The most comprehensive equation to date showed a good agreement with the present numerical results. We conclude that this open-source solver, twoPhaseEulerFoam, can be used to predict the equilibrium scour depth beneath subsea pipelines, with short computation times and negligible mesh dependency Conference Object Arctic University of Tasmania: UTas ePrints
institution Open Polar
collection University of Tasmania: UTas ePrints
op_collection_id ftunivtasmania
language unknown
topic two-phase model
scour
subsea pipelines
initial elevations
spellingShingle two-phase model
scour
subsea pipelines
initial elevations
Lee, JY
McInerney, JBT
Hardjanto, FA
Chai, S
Cossu, R
Leong, ZQ
Forrest, AL
Two-phase model for simulating current-induced scour beneath subsea pipelines at different initial elevations
topic_facet two-phase model
scour
subsea pipelines
initial elevations
description When a subsea pipeline is laid on an uneven seabed, the pipeline can have an initial elevation, potentially compromising its on-bottom stability; scouring due to flow conditions around the pipe can further exacerbate the problem. We assess the capability of the two-phase Eulerian-Eulerian OpenFOAM solver, twoPhaseEulerFoam, in terms of predicting the equilibrium scour depth beneath a pipe at different initial elevations under a steady current for the live bed condition. The predictions were found to be in good agreement with published experimental and numerical results; however, similar to a recent study involving another two-phase Eulerian-Eulerian model, the scour time scale was under-predicted. The predicted equilibrium scour depth was seen to decrease with an increase in the initial pipe elevation. The numerical results were also compared to predictions that were made using previous empirical equations. The most comprehensive equation to date showed a good agreement with the present numerical results. We conclude that this open-source solver, twoPhaseEulerFoam, can be used to predict the equilibrium scour depth beneath subsea pipelines, with short computation times and negligible mesh dependency
format Conference Object
author Lee, JY
McInerney, JBT
Hardjanto, FA
Chai, S
Cossu, R
Leong, ZQ
Forrest, AL
author_facet Lee, JY
McInerney, JBT
Hardjanto, FA
Chai, S
Cossu, R
Leong, ZQ
Forrest, AL
author_sort Lee, JY
title Two-phase model for simulating current-induced scour beneath subsea pipelines at different initial elevations
title_short Two-phase model for simulating current-induced scour beneath subsea pipelines at different initial elevations
title_full Two-phase model for simulating current-induced scour beneath subsea pipelines at different initial elevations
title_fullStr Two-phase model for simulating current-induced scour beneath subsea pipelines at different initial elevations
title_full_unstemmed Two-phase model for simulating current-induced scour beneath subsea pipelines at different initial elevations
title_sort two-phase model for simulating current-induced scour beneath subsea pipelines at different initial elevations
publisher American Society of Mechanical Engineers
publishDate 2018
url https://eprints.utas.edu.au/45126/
genre Arctic
genre_facet Arctic
op_relation Lee, JY orcid:0000-0001-5884-7077 , McInerney, JBT, Hardjanto, FA orcid:0000-0002-9489-7474 , Chai, S orcid:0000-0001-5186-4456 , Cossu, R, Leong, ZQ orcid:0000-0002-0644-1822 and Forrest, AL 2018 , 'Two-phase model for simulating current-induced scour beneath subsea pipelines at different initial elevations', paper presented at the ASME 2018 37th International Conference on Ocean, Offshore and Arctic Engineering (OMAE2018), 17-22 July 2018, Madrid, Spain.
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