Effect of location of crack in dent on burst pressure of pipeline with combined dent and crack defects

Effect of location of crack in dent on burst pressure of pipeline with combined dent and crack defects

Burst pressure of pipelines with longitudinal cracks located at the centre of rectangular dents varies with defect size and recent reports indicate that it could be very high for shallow cracks inside shallow dents and for cracks inside restrained dents. However, it is not clear whether cracks locat...

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Main Authors: Allan Okodi, Yong Li, J.J.R. Cheng, Muntaseer Kainat, Nader Yoosef-Ghodsi, Samer Adeeb
Format: Article
Language:English
Published: KeAi Communications Co. Ltd. 2021-06-01
Series:Journal of Pipeline Science and Engineering
Subjects:
Combined defect
Pipeline
Surface crack
Through-wall crack
Burst pressure
Flank of dent
Online Access:http://www.sciencedirect.com/science/article/pii/S2667143321000287
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spelling doaj-2204a138300845d28fe2d7c58e2fca1a2021-10-05T04:22:04ZengKeAi Communications Co. Ltd.Journal of Pipeline Science and Engineering2667-14332021-06-0112252263Effect of location of crack in dent on burst pressure of pipeline with combined dent and crack defectsAllan Okodi0Yong Li1J.J.R. Cheng2Muntaseer Kainat3Nader Yoosef-Ghodsi4Samer Adeeb5Department of Civil and Environmental Engineering, University of Alberta, Edmonton, Canada; Corresponding author.Department of Civil and Environmental Engineering, University of Alberta, Edmonton, CanadaDepartment of Civil and Environmental Engineering, University of Alberta, Edmonton, CanadaEnbridge Pipeline Inc., Edmonton, Alberta, CanadaEnbridge Pipeline Inc., Edmonton, Alberta, CanadaDepartment of Civil and Environmental Engineering, University of Alberta, Edmonton, Canada; Corresponding author.Burst pressure of pipelines with longitudinal cracks located at the centre of rectangular dents varies with defect size and recent reports indicate that it could be very high for shallow cracks inside shallow dents and for cracks inside restrained dents. However, it is not clear whether cracks located in the flank of dents would have the same impact on burst pressure of pipelines with dent-crack defects. In addition, studies show that the location of maximum strain in circular dents shifts away from the centre towards the flank when dented pipes are pressurised, but the implication on the propagation of longitudinal cracks located in various parts of a dent has not yet been widely investigated. In this paper, models of pipelines with longitudinal cracks inside rectangular dents were created using the Finite Element Methods software Abaqus to analyse crack propagation and predict the associated burst pressure. The in-built Extended Finite Element procedure in Abaqus was used to model crack propagation through the pipe. The models were calibrated and validated using previously published results of burst tests and tests of material properties. The effect of longitudinal cracks in both the flank and centre of the dents on the burst pressure was analysed by varying the crack length, the crack depth, the dent depth, the internal pressure during dent formation and the dent constraint condition. The results show that longitudinal cracks in the flank of rectangular dents are more severe for pipeline integrity than cracks located in the centre of dents. Crack depth and crack location inside the dents are the most influential parameters when assessing dent-crack defects in pipelines. Their effects on burst pressure are magnified by crack length, dent depth and denting pressure.http://www.sciencedirect.com/science/article/pii/S2667143321000287Combined defectPipelineSurface crackThrough-wall crackBurst pressureFlank of dent
collection DOAJ
language English
format Article
sources DOAJ
author Allan Okodi
Yong Li
J.J.R. Cheng
Muntaseer Kainat
Nader Yoosef-Ghodsi
Samer Adeeb
spellingShingle Allan Okodi
Yong Li
J.J.R. Cheng
Muntaseer Kainat
Nader Yoosef-Ghodsi
Samer Adeeb
Effect of location of crack in dent on burst pressure of pipeline with combined dent and crack defects
Journal of Pipeline Science and Engineering
Combined defect
Pipeline
Surface crack
Through-wall crack
Burst pressure
Flank of dent
author_facet Allan Okodi
Yong Li
J.J.R. Cheng
Muntaseer Kainat
Nader Yoosef-Ghodsi
Samer Adeeb
author_sort Allan Okodi
title Effect of location of crack in dent on burst pressure of pipeline with combined dent and crack defects
title_short Effect of location of crack in dent on burst pressure of pipeline with combined dent and crack defects
title_full Effect of location of crack in dent on burst pressure of pipeline with combined dent and crack defects
title_fullStr Effect of location of crack in dent on burst pressure of pipeline with combined dent and crack defects
title_full_unstemmed Effect of location of crack in dent on burst pressure of pipeline with combined dent and crack defects
title_sort effect of location of crack in dent on burst pressure of pipeline with combined dent and crack defects
publisher KeAi Communications Co. Ltd.
series Journal of Pipeline Science and Engineering
issn 2667-1433
publishDate 2021-06-01
description Burst pressure of pipelines with longitudinal cracks located at the centre of rectangular dents varies with defect size and recent reports indicate that it could be very high for shallow cracks inside shallow dents and for cracks inside restrained dents. However, it is not clear whether cracks located in the flank of dents would have the same impact on burst pressure of pipelines with dent-crack defects. In addition, studies show that the location of maximum strain in circular dents shifts away from the centre towards the flank when dented pipes are pressurised, but the implication on the propagation of longitudinal cracks located in various parts of a dent has not yet been widely investigated. In this paper, models of pipelines with longitudinal cracks inside rectangular dents were created using the Finite Element Methods software Abaqus to analyse crack propagation and predict the associated burst pressure. The in-built Extended Finite Element procedure in Abaqus was used to model crack propagation through the pipe. The models were calibrated and validated using previously published results of burst tests and tests of material properties. The effect of longitudinal cracks in both the flank and centre of the dents on the burst pressure was analysed by varying the crack length, the crack depth, the dent depth, the internal pressure during dent formation and the dent constraint condition. The results show that longitudinal cracks in the flank of rectangular dents are more severe for pipeline integrity than cracks located in the centre of dents. Crack depth and crack location inside the dents are the most influential parameters when assessing dent-crack defects in pipelines. Their effects on burst pressure are magnified by crack length, dent depth and denting pressure.
topic Combined defect
Pipeline
Surface crack
Through-wall crack
Burst pressure
Flank of dent
url http://www.sciencedirect.com/science/article/pii/S2667143321000287
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AT yongli effectoflocationofcrackindentonburstpressureofpipelinewithcombineddentandcrackdefects
AT jjrcheng effectoflocationofcrackindentonburstpressureofpipelinewithcombineddentandcrackdefects
AT muntaseerkainat effectoflocationofcrackindentonburstpressureofpipelinewithcombineddentandcrackdefects
AT naderyoosefghodsi effectoflocationofcrackindentonburstpressureofpipelinewithcombineddentandcrackdefects
AT sameradeeb effectoflocationofcrackindentonburstpressureofpipelinewithcombineddentandcrackdefects
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