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A novel model for prediction of burst capacity of corroded pipelines subjected to combined loads of bending moment and axial compression

Yi Shuai, Xiao Zhang, Can Feng, Junyan Han, Y. Frank Cheng

2022International Journal of Pressure Vessels and Piping35 citationsDOIOpen Access PDF

Abstract

Most of the commonly used standards and codes for burst pressure prediction at a corrosion defect of steel pipelines generally just consider internal pressure alone. However, an actual oil/gas pipeline is usally subjected to external loads, such as axial compression/tension and bending moment, which may affect the burst capacity of the pipeline. In this study, a three-dimensional (3D) nonlinear finite element (FE) model validated by burst tests was developed to investigate the effect of bending moment and axial force on the burst capacity of corroded pipelines . Subsequently, the effects of external loads (i.e., bending moment, and axial force) and corrosion geometry features (involving corrosion depth , width, length, and clock position) on the pipe burst pressure were determined. Then, based on a series of FE cases, a new burst prediction model for corroded pipelines subjected to the combination loads of bending load and axial compressive force was fitted and developed. Finally, the effectiveness and reliability of the new proposed model were verified by extensive parametric FE analysis and burst test data. The results show that the prediction errors for the failure pressures between the proposed-model and the FEM were less than 10% for most 92.793% of the 222 cases. Moreover, the proposed model can also be applied to the condition that the pipeline is under single internal pressure, and its prediction accuracy is better than that of other seven well-known models of ASME B31G, Mod B31G (0.85 d L), Z662, DNV, PCORRC, CUP, and Shell-92.

Topics & Concepts

Structural engineeringInternal pressurePipeline transportBending momentFinite element methodBendingParametric statisticsBucklingCompression (physics)Moment (physics)CorrosionPipeline (software)Tension (geology)EngineeringStress (linguistics)Materials scienceComposite materialMechanical engineeringMathematicsLinguisticsPhysicsStatisticsClassical mechanicsPhilosophyStructural Integrity and Reliability AnalysisCorrosion Behavior and InhibitionHydrogen embrittlement and corrosion behaviors in metals