Corrosion Failure Reasons of Elbow Joint of an Oil and Gas Metering Device
摘 要
采用宏观形貌、显微组织观察,腐蚀产物成分分析和电化学方法,分析了某采油厂计量装置采用的弯管接头在原油介质中发生穿孔的原因。结果表明:失效弯管接头热影响区存在焊接缺陷,导致其耐腐蚀性能减弱;腐蚀产物主要成分为FeOOH,氧腐蚀为主要腐蚀类型;弯管接头外弧侧耐腐蚀性能最弱,且不断受到流体冲蚀,腐蚀加剧,最终形成穿孔。
Abstract
The reasons for perforation of the elbow joint used in metering device of an oil production plant in crude oil medium was analyzed by observation of macroscopic morphology, microstructure, composition analysis of corrosion products and electrochemical method. The results show that the heat affected zone of the failed elbow joint had welding defects, which weakened the corrosion resistance of the joint.The main component of corrosion products was FeOOH, and oxygen corrosion was the main corrosion type. The outer arc side of the elbow joint had the weakest corrosion resistance, and was eroded by the fluid continously, which led to more serious corrosion and perforation in the end.
中图分类号 TG172 DOI 10.11973/fsyfh-202105015
所属栏目 失效分析
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收稿日期 2019/6/11
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引用该论文: DING Yasai,YU Jinhai,YU Zhenglun,CHI Aiwen,ZHANG Anjiang. Corrosion Failure Reasons of Elbow Joint of an Oil and Gas Metering Device[J]. Corrosion & Protection, 2021, 42(5): 74
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参考文献
【1】仝珂,谢学东,李亮,等. 油气输送用弯管失效原因及典型案例分析[J]. 石油管材与仪器,2016,2(1):46-49.
【2】甘振维. 凝析气田集输管道内腐蚀分析[J]. 油气储运,2010,29(1):41-45,91-92.
【3】LI X G,ZHANG D W,LIU Z Y,et al. Materials science:share corrosion data[J]. Nature,2015,527(7579):441-442.
【4】彭伟华,苗健,高伟,等. 原油含水量和流速对X60钢管道腐蚀行为的影响[J]. 材料保护,2012,45(5):60-62,87-88.
【5】MARUTHAMUTHU S,KUMAR B D,RAM- ACHANDRAN S,et al. Microbial corrosion in petroleum product transporting pipelines[J]. Industrial & Engineering Chemistry Research,2011,50(13):8006-8015.
【6】JIANG X,ZHENG Y G,KE W. Corrosion inhibitor performances for carbon dioxide corrosion of N80 steel under static and flowing conditions[J]. Corrosion,2005,61(4):326-334.
【7】路民旭,白真权,赵新伟,等. 油气采集储运中的腐蚀现状及典型案例[J]. 腐蚀与防护,2002,23(3):105-113.
【8】钟强,赵国仙,倪崇江,等. 某海底输送管线腐蚀失效分析[J]. 天然气与石油,2016,34(1):89-93,13.
【9】周彬,刘勇峰. 多相混输管道弯管流动腐蚀数值计算[J]. 当代化工,2013,42(3):332-335.
【10】刘宇程,张寅龙,陈明燕. 高含盐量酸性油水混合液对弯管处管线的腐蚀研究[J]. 安全与环境学报,2014,14(6):35-38.
【2】甘振维. 凝析气田集输管道内腐蚀分析[J]. 油气储运,2010,29(1):41-45,91-92.
【3】LI X G,ZHANG D W,LIU Z Y,et al. Materials science:share corrosion data[J]. Nature,2015,527(7579):441-442.
【4】彭伟华,苗健,高伟,等. 原油含水量和流速对X60钢管道腐蚀行为的影响[J]. 材料保护,2012,45(5):60-62,87-88.
【5】MARUTHAMUTHU S,KUMAR B D,RAM- ACHANDRAN S,et al. Microbial corrosion in petroleum product transporting pipelines[J]. Industrial & Engineering Chemistry Research,2011,50(13):8006-8015.
【6】JIANG X,ZHENG Y G,KE W. Corrosion inhibitor performances for carbon dioxide corrosion of N80 steel under static and flowing conditions[J]. Corrosion,2005,61(4):326-334.
【7】路民旭,白真权,赵新伟,等. 油气采集储运中的腐蚀现状及典型案例[J]. 腐蚀与防护,2002,23(3):105-113.
【8】钟强,赵国仙,倪崇江,等. 某海底输送管线腐蚀失效分析[J]. 天然气与石油,2016,34(1):89-93,13.
【9】周彬,刘勇峰. 多相混输管道弯管流动腐蚀数值计算[J]. 当代化工,2013,42(3):332-335.
【10】刘宇程,张寅龙,陈明燕. 高含盐量酸性油水混合液对弯管处管线的腐蚀研究[J]. 安全与环境学报,2014,14(6):35-38.
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