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Numerical simulation and factor analysis of petrochemical pipe erosion-corrosion failure

Based on the behavior of carbon steel outlet tube in REAC pipes of Zhenhai Refining & Chemical Company, the mathematical model of fluid-solid interaction was established according to the mechanism of erosion-corrosion damage. The interaction between corrosion products protecting film and multiph...

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Published in:	IOP conference series. Materials Science and Engineering 2016-05, Vol.129 (1), p.12033-12040
Main Authors:	XU, G F, OU, G F, Chen, T, Li, P X, JIN, H Z
Format:	Article
Language:	English
Subjects:	Carbon steels Computer simulation Corrosion Corrosion mechanisms Corrosion products Erosion mechanisms Erosion-corrosion Factor analysis Failure analysis Finite element method Fluid-solid interactions Gaging Life prediction Mathematical models Multiphase flow Optimization Pipe Reliability analysis Risk assessment Shearing Simulation Stress concentration Stresses
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creator	XU, G F OU, G F Chen, T Li, P X JIN, H Z
description	Based on the behavior of carbon steel outlet tube in REAC pipes of Zhenhai Refining & Chemical Company, the mathematical model of fluid-solid interaction was established according to the mechanism of erosion-corrosion damage. The interaction between corrosion products protecting film and multiphase liquid was analyzed by numerical simulation method. The distribution of shearing stress on the inwall of elbow bend, and the distribution of principal displacement, stress and strain of corrosion products protecting film were disclosed, while the erosion-corrosion failure processes was studied. The simulation result coincides with that of the positioned thickness gauging which validated the reliability and feasibility of the finite element analysis software simulation method. The obtained results can be used in the erosion-corrosion failure analysis, structural optimization, in-service testing positioning, life prediction, risk assessment, safety and other security projects for multiphase flow pipeline.
doi_str_mv	10.1088/1757-899X/129/1/012033
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subjects	Carbon steels Computer simulation Corrosion Corrosion mechanisms Corrosion products Erosion mechanisms Erosion-corrosion Factor analysis Failure analysis Finite element method Fluid-solid interactions Gaging Life prediction Mathematical models Multiphase flow Optimization Pipe Reliability analysis Risk assessment Shearing Simulation Stress concentration Stresses
title	Numerical simulation and factor analysis of petrochemical pipe erosion-corrosion failure
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