Lagrangian Modeling of Regular Wave Effect on Sea Pipeline on Permeable Sea Bed

Using offshore pipelines is the most common way to transport oil and gas extracted from oil and gas fields. Since the pipelines are usually located on porous seabed, current pattern around them is complicated. In this study, based on the weakly compressible smoothed particles hydrodynamic method, ne...

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Main Authors: Ali Pooyarad, Hassan Akbari
Format: Article
Language:fas
Published: Iranian Association of Naval Architecture and Marine Engineering 2021-05-01
Series:نشریه مهندسی دریا
Subjects:
Online Access:http://marine-eng.ir/article-1-788-en.html
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spelling doaj-5f77621b34514eb5b4cc16f57babcd8a2021-07-10T05:07:04ZfasIranian Association of Naval Architecture and Marine Engineeringنشریه مهندسی دریا1735-76082645-81362021-05-011733110Lagrangian Modeling of Regular Wave Effect on Sea Pipeline on Permeable Sea BedAli Pooyarad0Hassan Akbari1 Tarbiat Modares University Tarbiat Modares University Using offshore pipelines is the most common way to transport oil and gas extracted from oil and gas fields. Since the pipelines are usually located on porous seabed, current pattern around them is complicated. In this study, based on the weakly compressible smoothed particles hydrodynamic method, new numerical model has been developed that is capable of simulating flow inside a porous medium. In addition, to minimize wave reflections, two different methods i.e. using gradual velocity damper and using a sloped beach geometry are studied and a hybrid method is introduced as an effective new wave absorbing system. Wave interactions with pipeline on and spaced from permeable and impermeable beds are studied by means of the introduced method. Distance between pipeline and seabed is investigated for both conditions. The introduced numerical model is validated via comparing its results with experimental data and similar numerical results. The results confirm that the developed numerical model can be used efficiently in modeling wave interaction with pipelines located on either permeable or impermeable seabed. In addition, wave reflections can be minimized by means of the introduced hybrid wave absorption systemhttp://marine-eng.ir/article-1-788-en.htmlsmoothed particle hydrodynamicporous seabedpipelinewave absorption
collection DOAJ
language fas
format Article
sources DOAJ
author Ali Pooyarad
Hassan Akbari
spellingShingle Ali Pooyarad
Hassan Akbari
Lagrangian Modeling of Regular Wave Effect on Sea Pipeline on Permeable Sea Bed
نشریه مهندسی دریا
smoothed particle hydrodynamic
porous seabed
pipeline
wave absorption
author_facet Ali Pooyarad
Hassan Akbari
author_sort Ali Pooyarad
title Lagrangian Modeling of Regular Wave Effect on Sea Pipeline on Permeable Sea Bed
title_short Lagrangian Modeling of Regular Wave Effect on Sea Pipeline on Permeable Sea Bed
title_full Lagrangian Modeling of Regular Wave Effect on Sea Pipeline on Permeable Sea Bed
title_fullStr Lagrangian Modeling of Regular Wave Effect on Sea Pipeline on Permeable Sea Bed
title_full_unstemmed Lagrangian Modeling of Regular Wave Effect on Sea Pipeline on Permeable Sea Bed
title_sort lagrangian modeling of regular wave effect on sea pipeline on permeable sea bed
publisher Iranian Association of Naval Architecture and Marine Engineering
series نشریه مهندسی دریا
issn 1735-7608
2645-8136
publishDate 2021-05-01
description Using offshore pipelines is the most common way to transport oil and gas extracted from oil and gas fields. Since the pipelines are usually located on porous seabed, current pattern around them is complicated. In this study, based on the weakly compressible smoothed particles hydrodynamic method, new numerical model has been developed that is capable of simulating flow inside a porous medium. In addition, to minimize wave reflections, two different methods i.e. using gradual velocity damper and using a sloped beach geometry are studied and a hybrid method is introduced as an effective new wave absorbing system. Wave interactions with pipeline on and spaced from permeable and impermeable beds are studied by means of the introduced method. Distance between pipeline and seabed is investigated for both conditions. The introduced numerical model is validated via comparing its results with experimental data and similar numerical results. The results confirm that the developed numerical model can be used efficiently in modeling wave interaction with pipelines located on either permeable or impermeable seabed. In addition, wave reflections can be minimized by means of the introduced hybrid wave absorption system
topic smoothed particle hydrodynamic
porous seabed
pipeline
wave absorption
url http://marine-eng.ir/article-1-788-en.html
work_keys_str_mv AT alipooyarad lagrangianmodelingofregularwaveeffectonseapipelineonpermeableseabed
AT hassanakbari lagrangianmodelingofregularwaveeffectonseapipelineonpermeableseabed
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