A Singular Perturbation Method for Parametric Investigation on J-lay Installation of Deepwater Pipelines

The maximum bending moment or curvature in the neighborhood of the touch down point （TDP） and the maximum tension at the top are two key parameters to be controlled during deepwater J-lay installation in order to ensure the safety of the pipe-laying operation and the normal operation of the pipeline...

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Published in	China ocean engineering Vol. 27; no. 6; pp. 751 - 766
Main Author	王琴段梦兰李海明张庆元
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.12.2013
Subjects	Airport towers Angles (geometry) Asymptotic properties Bending moments Coastal Sciences Curvature Differential equations Engineering Fluid- and Aerodynamics Marine Marine & Freshwater Sciences Mathematical analysis Numerical and Computational Physics Oceanography Offshore Engineering Pipelines Simulation 奇异摄动方法奇异摄动法安装过程弯曲力矩控制微分方程最大张力深海管道铺设 non-linear governing differential equation; J-lay of pipeline geometric nonlinearity deepwater singular perturbation technique stiffened catenary touch down point
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ISSN	0890-5487 2191-8945
DOI	10.1007/s13344-013-0062-4

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Abstract	The maximum bending moment or curvature in the neighborhood of the touch down point （TDP） and the maximum tension at the top are two key parameters to be controlled during deepwater J-lay installation in order to ensure the safety of the pipe-laying operation and the normal operation of the pipelines. In this paper, the non-linear governing differential equation for getting the two parameters during J-lay installation is proposed and solved by use of singular perturbation technique, from which the asymptotic expression of stiffened catenary is obtained and the theoretical expression of its static geometric configuration as well as axial tension and bending moment is derived. Finite element results are applied to verify this method. Parametric investigation is conducted to analyze the influences of the seabed slope, unit weight, flexural stiffness, water depth, and the pipe-laying tower angle on the maximum tension and moment of pipeline by this method, and the results show how to control the installation process by changing individual parameters.
AbstractList	The maximum bending moment or curvature in the neighborhood of the touch down point (TDP) and the maximum tension at the top are two key parameters to be controlled during deepwater J-lay installation in order to ensure the safety of the pipe-laying operation and the normal operation of the pipelines. In this paper, the non-linear governing differential equation for getting the two parameters during J-lay installation is proposed and solved by use of singular perturbation technique, from which the asymptotic expression of stiffened catenary is obtained and the theoretical expression of its static geometric configuration as well as axial tension and bending moment is derived. Finite element results are applied to verify this method. Parametric investigation is conducted to analyze the influences of the seabed slope, unit weight, flexural stiffness, water depth, and the pipe-laying tower angle on the maximum tension and moment of pipeline by this method, and the results show how to control the installation process by changing individual parameters. The maximum bending moment or curvature in the neighborhood of the touch down point （TDP） and the maximum tension at the top are two key parameters to be controlled during deepwater J-lay installation in order to ensure the safety of the pipe-laying operation and the normal operation of the pipelines. In this paper, the non-linear governing differential equation for getting the two parameters during J-lay installation is proposed and solved by use of singular perturbation technique, from which the asymptotic expression of stiffened catenary is obtained and the theoretical expression of its static geometric configuration as well as axial tension and bending moment is derived. Finite element results are applied to verify this method. Parametric investigation is conducted to analyze the influences of the seabed slope, unit weight, flexural stiffness, water depth, and the pipe-laying tower angle on the maximum tension and moment of pipeline by this method, and the results show how to control the installation process by changing individual parameters.
Author	王琴段梦兰李海明张庆元
AuthorAffiliation	Offshore Oil/Gas Research Center, China University of Petroleum, Beijing 102249, China China National Offshore Oil Corporation, Beijing 100010, China
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Keywords	non-linear governing differential equation; J-lay of pipeline geometric nonlinearity deepwater singular perturbation technique stiffened catenary touch down point
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Notes	32-1441/P deepwater; touch down point; singular perturbation technique; non-linear governing differential equation; J-lay of pipeline; geometric nonlinearity; stiffened catenary WANG Qin DUAN Meng-lan LI Hai-ming ZHANG Qing-yuan （a Offshore Oil/Gas Research Center, China University of Petroleum, Beijing 102249, China b China National Offshore Oil Corporation, Beijing 100010, China） The maximum bending moment or curvature in the neighborhood of the touch down point （TDP） and the maximum tension at the top are two key parameters to be controlled during deepwater J-lay installation in order to ensure the safety of the pipe-laying operation and the normal operation of the pipelines. In this paper, the non-linear governing differential equation for getting the two parameters during J-lay installation is proposed and solved by use of singular perturbation technique, from which the asymptotic expression of stiffened catenary is obtained and the theoretical expression of its static geometric configuration as well as axial tension and bending moment is derived. Finite element results are applied to verify this method. Parametric investigation is conducted to analyze the influences of the seabed slope, unit weight, flexural stiffness, water depth, and the pipe-laying tower angle on the maximum tension and moment of pipeline by this method, and the results show how to control the installation process by changing individual parameters. ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23
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Snippet	The maximum bending moment or curvature in the neighborhood of the touch down point （TDP） and the maximum tension at the top are two key parameters to be... The maximum bending moment or curvature in the neighborhood of the touch down point (TDP) and the maximum tension at the top are two key parameters to be...
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SubjectTerms	Airport towers Angles (geometry) Asymptotic properties Bending moments Coastal Sciences Curvature Differential equations Engineering Fluid- and Aerodynamics Marine Marine & Freshwater Sciences Mathematical analysis Numerical and Computational Physics Oceanography Offshore Engineering Pipelines Simulation 奇异摄动方法奇异摄动法安装过程弯曲力矩控制微分方程最大张力深海管道铺设
Title	A Singular Perturbation Method for Parametric Investigation on J-lay Installation of Deepwater Pipelines
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