[2015] Burst strength behaviour of an aging subsea gas pipeline elbow …
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Int. J. Nav. Archit. Ocean Eng. (2015) 7:435~451
Burst strength behaviour of an aging subsea gas pipeline elbow in different external and internal corrosion-damaged positions
Author(s):Geon Ho Lee, Hassan Pouraria, Jung Kwan Seo and Jeom Kee Paik
Abstract:
Evaluation of the performance of aging structures is essential in the oil and gas industry, where the inaccurate prediction of structural performance can have significantly hazardous consequences. The effects of structure failure due to the significant reduction in wall thickness, which determines the burst strength, make it very complicated for pipeline operators to maintain pipeline serviceability. In other words, the serviceability of gas pipelines and elbows needs to be predicted and assessed to ensure that the burst or collapse strength capacities of the structures remain less than the maximum allowable operation pressure. In this study, several positions of the corrosion in a subsea elbow made of API X42 steel were evaluated using both design formulas and numerical analysis. The most hazardous corrosion posi-tion of the aging elbow was then determined to assess its serviceability. The results of this study are applicable to the operational and elbow serviceability needs of subsea pipelines and can help predict more accurate replacement or repair times.ratio decreases.
Burst strength behaviour of an aging subsea gas pipeline elbow in different external and internal corrosion-damaged positions
Author(s):Geon Ho Lee, Hassan Pouraria, Jung Kwan Seo and Jeom Kee Paik
Abstract:
Evaluation of the performance of aging structures is essential in the oil and gas industry, where the inaccurate prediction of structural performance can have significantly hazardous consequences. The effects of structure failure due to the significant reduction in wall thickness, which determines the burst strength, make it very complicated for pipeline operators to maintain pipeline serviceability. In other words, the serviceability of gas pipelines and elbows needs to be predicted and assessed to ensure that the burst or collapse strength capacities of the structures remain less than the maximum allowable operation pressure. In this study, several positions of the corrosion in a subsea elbow made of API X42 steel were evaluated using both design formulas and numerical analysis. The most hazardous corrosion posi-tion of the aging elbow was then determined to assess its serviceability. The results of this study are applicable to the operational and elbow serviceability needs of subsea pipelines and can help predict more accurate replacement or repair times.ratio decreases.
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