Finite element study on residual internal pressure strength of corroded oil pipes and prediction method for remaining life

Purpose This study aims to provide a theoretical basis to evaluate the suitability and integrity of corrosion pipes. Design/methodology/approach The three-dimensional models of the P110S oil pipe with local corrosion damage, general corrosion damage, pitting corrosion damage are established based on...

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Bibliographic Details
Published inAnti-corrosion methods and materials Vol. 68; no. 6; pp. 481 - 488
Main Authors Yuan, Yue, Deng, Kuanhai, Zhang, Jiangjiang, Zeng, Wenguang, Kong, Xiangwei, Lin, Yuanhua
Format Journal Article
LanguageEnglish
Published Bradford Emerald Publishing Limited 09.11.2021
Emerald Group Publishing Limited
Subjects
Corrosion
Corrosion effects
Damage
Defects
Finite element analysis
Finite element method
Internal pressure
Life assessment
Methods
Natural gas
Oil
Pipes
Pitting (corrosion)
Reliability analysis
Residual strength
Simulation
Steel pipes
Stress concentration
Three dimensional models
Tubing
Uniform attack (corrosion)
Corrosion engineering
P110S oil pipes
Corrosion
Pipelines
Corrosion damage
Remaining life prediction
Residual internal pressure strength
Oil and gas
Finite element analysis
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Summary:Purpose This study aims to provide a theoretical basis to evaluate the suitability and integrity of corrosion pipes. Design/methodology/approach The three-dimensional models of the P110S oil pipe with local corrosion damage, general corrosion damage, pitting corrosion damage are established based on the API 579 standard using the nonlinear finite element analysis method for parametric research. Findings The reliability of the model is verified based on the experimental data from the existing literature. The effects of the oil pipe’s size and the corrosion damage’s type on the residual internal pressure strength are simulated and obtained. What’s more, a basic method for predicting the remaining life of corrosion damaged pipes is proposed. Originality/value The authors evaluated the residual strength of various corroded tubing, compared the tubing with different corrosion types and proposed a basic method for predicting the remaining life of the corroded tubing from the corrosion depth.
ISSN:0003-5599
1758-4221
DOI:10.1108/ACMM-07-2020-2342