Modelling the soil resistance on seabed pipelines during large cycles of lateral movement
Modelling the soil resistance on seabed pipelines during large cycles of lateral movement
New oil and gas developments in remote offshore locations require the construction of long seabed pipelines that operate under high temperature and pressure. To accommodate the resulting thermal expansion, a novel design solution is to allow controlled lateral buckling. This design solution is reliant on accurate modelling of the pipe-soil interaction during large-amplitude lateral movements, during which large soil berms are created as the sweeping pipeline erodes the seabed. This paper describes a simple framework that allows existing pipe-soil interaction models to be extended to capture this large deformation behaviour using a kinematic hardening model. The hardening parameter, which governs the resistance created by the berm, is the area of berm currently being transported in front of the pipe. Cyclic behaviour is captured by the deposition and collection of berms when the pipe changes direction. This modelling framework mimics experimental observations, and reproduces the resulting load-displacement behaviour. Only four parameters are involved, each with physical meaning, and the framework is amenable to inclusion within the structural analysis of a pipeline. Limited experimental data on this behaviour is currently available and case-specific calibration of the model is necessary.
Clay, Lateral buckling, Pipeline, Soil
59-79
White, D.J.
a986033d-d26d-4419-a3f3-20dc54efce93
Cheuk, C.Y.
4fd1f770-b1c1-4d15-b1b2-464c7a2a0d86
January 2008
White, D.J.
a986033d-d26d-4419-a3f3-20dc54efce93
Cheuk, C.Y.
4fd1f770-b1c1-4d15-b1b2-464c7a2a0d86
White, D.J. and Cheuk, C.Y.
(2008)
Modelling the soil resistance on seabed pipelines during large cycles of lateral movement.
Marine Structures, 21 (1), .
(doi:10.1016/j.marstruc.2007.05.001).
Abstract
New oil and gas developments in remote offshore locations require the construction of long seabed pipelines that operate under high temperature and pressure. To accommodate the resulting thermal expansion, a novel design solution is to allow controlled lateral buckling. This design solution is reliant on accurate modelling of the pipe-soil interaction during large-amplitude lateral movements, during which large soil berms are created as the sweeping pipeline erodes the seabed. This paper describes a simple framework that allows existing pipe-soil interaction models to be extended to capture this large deformation behaviour using a kinematic hardening model. The hardening parameter, which governs the resistance created by the berm, is the area of berm currently being transported in front of the pipe. Cyclic behaviour is captured by the deposition and collection of berms when the pipe changes direction. This modelling framework mimics experimental observations, and reproduces the resulting load-displacement behaviour. Only four parameters are involved, each with physical meaning, and the framework is amenable to inclusion within the structural analysis of a pipeline. Limited experimental data on this behaviour is currently available and case-specific calibration of the model is necessary.
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Accepted/In Press date: 2 May 2007
e-pub ahead of print date: 6 July 2007
Published date: January 2008
Keywords:
Clay, Lateral buckling, Pipeline, Soil
Identifiers
Local EPrints ID: 419865
URI: http://eprints.soton.ac.uk/id/eprint/419865
ISSN: 0951-8339
PURE UUID: 7126049b-0e9d-456f-b987-b14744fa3195
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Date deposited: 23 Apr 2018 16:30
Last modified: 18 Mar 2024 03:42
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Author:
C.Y. Cheuk
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