Corrosion defect harmfulness by domain failure assessment diagram

Pipeline Science and Technology Pub Date : 2018-08-31 DOI:10.28999/2514-541X-2018-2-3-163-177

G. Pluvinage, O. Bouledroua, M. H. Meliani

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引用次数: 3

Abstract

WE ARE REPORTING in this study the detection of 1888 corrosion defects using a magnetic pig over 70 km of a pipeline located in Algeria. This large amount of defects has been statistically analysed. The relative defect depth a/t exhibited a large scatter and no correlation was found between corrosion defect depth and length. For the necessity of repairing defect, two tools are available: the first is based on limit analysis and called the estimated repair factor (ERF) while the second is based on the failure assessment diagram. The adopted tool in the current study was the domain failure assessment diagram (DFAD). Analysis made with FAD concerns 66.8% of corrosion defects, with a limit analysis (LA) of 32.5%.After categorizing the corrosion defect according to the used analysis tool, the safety factor or probability of failure of each assessment point was determined and compared to the repairing criteria. It appears that the ERF criterion is more conservative in our case than the probabilistic criterion as a probability of failure of 10-4 or a non-dimensional crack driving force equal to mean minus three standard deviations.

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腐蚀缺陷危害区域失效评估图

在这项研究中，我们报告了在阿尔及利亚的一条70公里的管道中，使用磁性清管器检测了1888个腐蚀缺陷。这大量的缺陷已经过统计分析。相对缺陷深度a/t具有较大的离散性，腐蚀缺陷深度与长度之间没有相关性。针对缺陷修复的必要性，有两种工具可供选择:第一种工具是基于极限分析，称为估计修复因子(ERF)，第二种工具是基于故障评估图。本研究采用的工具是域失效评估图(DFAD)。FAD分析涉及66.8%的腐蚀缺陷，极限分析(LA)为32.5%。根据所使用的分析工具对腐蚀缺陷进行分类后，确定各评估点的安全系数或失效概率，并与修复准则进行比较。在我们的情况下，ERF准则似乎比概率准则更保守，因为失效概率为10-4或无因次裂纹驱动力等于平均值减去三个标准差。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Pipeline Science and Technology

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