Validation of the NG-18 equations for thick walled pipelines
Validation of the NG-18 equations for thick walled pipelines
The applicability of the flow stress dependent NG-18 equations to thick wall pipelines such as those used to transport dense phase carbon dioxide (CO2) is demonstrated. A comparison between the components of the NG-18 equations and BS 7910 shows that the factor MT for though-wall defects and MP for part-wall defects in the NG-18 equations are very close to the reference stress solutions in BS 7910 Annex P, which are applicable to thick wall pipe. Thus, by inference, the flow stress dependent form of the NG-18 equations is also applicable to thick wall pipe. A further comparison with experimental failure data for thick wall pipes shows that the flow stress dependent NG-18 equations are applicable to wall thicknesses of up to 47.2 mm when the full-size equivalent upper shelf Charpy V-notch impact energy is at least 50 J. The results suggest that in principle, the flow stress dependent NG-18 equations may be used as limit state functions in models to calculate the failure frequency due to third party external interference, for high toughness, thick wall pipelines such as those required for dense phase CO2 pipelines.
Lyons, C.j.
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Race, J.m.
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Chang, E.
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Cosham, A.
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Wetenhall, B.
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Barnett, J.
8afff16b-1c77-4425-869c-8a9d8cd1a14a
1 May 2020
Lyons, C.j.
fe8ff48c-10ee-4427-bec2-957e8d61c60c
Race, J.m.
bc7f2b35-e599-4d2f-ab3b-b772571330a4
Chang, E.
ed33f9bb-7b6a-4905-90a8-0cc6853afcc0
Cosham, A.
a50f83b8-d0d6-4bd0-ba84-28804d65027e
Wetenhall, B.
238f01a5-f55f-41d3-bcfe-ebee1903fb24
Barnett, J.
8afff16b-1c77-4425-869c-8a9d8cd1a14a
Lyons, C.j., Race, J.m., Chang, E., Cosham, A., Wetenhall, B. and Barnett, J.
(2020)
Validation of the NG-18 equations for thick walled pipelines.
Engineering Failure Analysis, 112, [104494].
(doi:10.1016/j.engfailanal.2020.104494).
Abstract
The applicability of the flow stress dependent NG-18 equations to thick wall pipelines such as those used to transport dense phase carbon dioxide (CO2) is demonstrated. A comparison between the components of the NG-18 equations and BS 7910 shows that the factor MT for though-wall defects and MP for part-wall defects in the NG-18 equations are very close to the reference stress solutions in BS 7910 Annex P, which are applicable to thick wall pipe. Thus, by inference, the flow stress dependent form of the NG-18 equations is also applicable to thick wall pipe. A further comparison with experimental failure data for thick wall pipes shows that the flow stress dependent NG-18 equations are applicable to wall thicknesses of up to 47.2 mm when the full-size equivalent upper shelf Charpy V-notch impact energy is at least 50 J. The results suggest that in principle, the flow stress dependent NG-18 equations may be used as limit state functions in models to calculate the failure frequency due to third party external interference, for high toughness, thick wall pipelines such as those required for dense phase CO2 pipelines.
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e-pub ahead of print date: 3 March 2020
Published date: 1 May 2020
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© 2020 Published by Elsevier Ltd.
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Local EPrints ID: 470035
URI: http://eprints.soton.ac.uk/id/eprint/470035
ISSN: 1350-6307
PURE UUID: fd30adb3-bc89-4f6d-afac-9dfcb9dc1c69
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Date deposited: 30 Sep 2022 16:50
Last modified: 11 May 2024 02:07
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Author:
C.j. Lyons
Author:
J.m. Race
Author:
E. Chang
Author:
A. Cosham
Author:
B. Wetenhall
Author:
J. Barnett
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