Corrosion in Crude Oil Distillation Unit Overhead: A recent Case Study

IF 1.2 Q3 MULTIDISCIPLINARY SCIENCES ARO-THE SCIENTIFIC JOURNAL OF KOYA UNIVERSITY Pub Date : 2021-03-01 DOI:10.14500/ARO.10711
Arif Ahmed
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引用次数: 3

Abstract

Despite all the technological advances and the control mechanisms that exist today to achieve the control of corrosion in overhead systems in atmospheric crude oil distillation units, there is still a high level of difficulty in predicting the phenomenon due to the complexity of the chemical compounds involved in the entire process. The study of this practical case aims to determine what control mechanisms should be optimized in a refinery located in the Autonomous Region of Iraqi Kurdistan to prevent corrosion phenomena’s in this specific system and how it should be done to achieve these improvements. It has been suggested that the corrosion mechanisms by hydrochloric acid and by ammonium chloride have been those that have acted in the operational context of the mentioned facility. To test this hypothesis, a study of the unit’s operational conditions and analytical tests were carried out on the construction material of various components and the products (sediments) found inside the tower. The results show that a lack of control in the salts and sediments content of the feed crude have caused an increase in the hydrolysis process of certain components upstream of the tower and thus the generation of acids and salts was promoted. On this basis, it is necessary to optimize the primary treatment of crude oil and update the chemical treatments and washing water systems to adapt to the new conditions of the feed of the refinery.
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原油蒸馏装置顶部腐蚀:最近的一个案例研究
尽管目前存在着控制常压原油蒸馏装置塔顶系统腐蚀的所有技术进步和控制机制,但由于整个过程中涉及的化合物的复杂性,预测这一现象仍然存在很大的困难。对该实际案例的研究旨在确定伊拉克库尔德斯坦自治区炼油厂应优化哪些控制机制,以防止该特定系统中出现腐蚀现象,以及应如何实现这些改进。有人认为,盐酸和氯化铵的腐蚀机制是在上述设施的操作环境中起作用的机制。为了验证这一假设,对机组的运行条件进行了研究,并对各种部件的建筑材料和塔内发现的产品(沉积物)进行了分析测试。结果表明,原料原油中的盐和沉积物含量缺乏控制,导致塔上游某些组分的水解过程增加,从而促进了酸和盐的产生。在此基础上,有必要优化原油的一级处理,更新化学处理和洗涤水系统,以适应炼油厂进料的新条件。
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来源期刊
ARO-THE SCIENTIFIC JOURNAL OF KOYA UNIVERSITY
ARO-THE SCIENTIFIC JOURNAL OF KOYA UNIVERSITY MULTIDISCIPLINARY SCIENCES-
自引率
33.30%
发文量
33
审稿时长
16 weeks
期刊最新文献
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