Numerical Modeling of the Stress-Strain State of an Underwater Offshore Gas Pipeline, Taking into Account Soil Liquefaction and Operating Parameters

Numerical Modeling of the Stress-Strain State of an Underwater Offshore Gas Pipeline, Taking into Account Soil Liquefaction and Operating Parameters

The brief information presented on the unexpected resurfacing of two lines at the underwater crossing through the Baidaratskaya Bay in Yamal indicates that in the course of the development of projects, full studies were not carried out on the issues of ensuring the strength and stability and maintai...

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Bibliographic Details
Published in:Mechanics of solids Vol. 58; no. 4; pp. 1171 - 1183
Main Authors: Zaripov, R. M., Masalimov, R. B.
Format: Journal Article
Language:English
Published: Moscow Pleiades Publishing 01-08-2023
Springer Nature B.V
Subjects:
Classical Mechanics
Differential equations
Differential geometry
Elastic media
Equilibrium equations
Finite element method
Gas pipelines
Liquefaction
Mathematical models
Natural gas
Numerical models
Offshore pipelines
Parameters
Physics
Physics and Astronomy
Pipeline design
Pipelines
Resurfacing
Soils
Strain
Stress-strain relationships
Underwater
stress
deflection
ascent
gas pipeline
concreted pipe
soil
force
pressure
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Summary:The brief information presented on the unexpected resurfacing of two lines at the underwater crossing through the Baidaratskaya Bay in Yamal indicates that in the course of the development of projects, full studies were not carried out on the issues of ensuring the strength and stability and maintaining the gas pipelines in the design position. To identify one of the main reasons for the ascent, the problem of the stress-strain state of the underwater section of the offshore gas pipeline was posed and solved, taking into account partial and complete flooding of the soil in separate underground parts. The considered underwater section of the underwater gas pipeline in the design scheme is conditionally divided into three parts. In its middle part there is a blurred bare part, which is formed due to liquefaction and erosion of the soil. Underground parts adjoin it on the left and right. A one-dimensional rod system in an elastic medium, consisting of curvilinear and straight three-layer rods of a tubular section and their junctions, is taken as a mathematical model of the calculated section of the gas pipeline. The stress-strain state of the rod element is described by a system of differential equations, which consists of geometric and physical nonlinear relationships, nonlinear differential equilibrium equations. The solution of the problem is carried out by the method of finite elements in displacements. A numerical experiment has found the critical values of the operation parameters and the shape of the bend of the gas pipeline preceding its ascent for different lengths of the washed-out bare part, changes in the state of the soil in the underground parts and various values of the gas pipeline operation parameters.
ISSN:0025-6544
1934-7936
DOI:10.3103/S0025654423700188