Microbially influenced corrosion on stainless steels in waste water treatment plants: Part 1

British Corrosion Journal Pub Date : 2001-10-01 DOI:10.1179/000705901101501749

A. Iversen

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引用次数: 3

Abstract

Abstract Field tests on stainless steels have been carried out at five waste water treatment plants for one year. Three grades of stainless steel, i.e. AISI 304 (UNS S30400), AISI 316 (UNS S31600), and duplex 2205 (UNS S31803) were tested in the final settling tank in the plants. The time dependence of the open circuit potential (OCP) was measured for all coupons. Ennoblement of the OCP, similar to that reported from investigations in sea water, was found in one of the plants. Waters from three of the exposure sites, containing dispersed deposits from exposed coupons, were chemically analysed. Pitting corrosion was observed after the field test on steel grade AISI 304 in three of the five plants, and on AISI 316 in one plant. No corrosion was found on 2205 in any of the plants. Laboratory measurements of the OCP were carried out for the AISI 304, AISI 316, and duplex 2205 steels in water collected from one of the plants. Cathodic polarisation curves were recorded in waste water from the same plant. T he cathodic reaction rate increased at the highest OCP. Simulation of the ennoblement was carried out by potentiostatic polarisation in a 600 ppm chloride solution. The current response indicated corrosion of welded AISI 304 material and of AISI 304 and AISI 316 steels in crevice assemblies after a long induction time. Part 2 of this study presents the results of further testing and a risk assessment design.

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污水处理厂中不锈钢的微生物影响腐蚀:第1部分

摘要在5个污水处理厂对不锈钢进行了为期一年的现场试验。三种等级的不锈钢，即AISI 304 (UNS S30400)， AISI 316 (UNS S31600)和双相2205 (UNS S31803)在工厂的最终沉淀池中进行了测试。测量了所有电极的开路电位(OCP)的时间依赖性。在其中一种植物中发现了与海水调查中报告的类似的OCP。来自三个暴露地点的水，含有来自暴露券的分散沉积物，进行了化学分析。在5个工厂中，3个工厂对钢级AISI 304进行了现场试验，1个工厂对AISI 316进行了现场试验。2205在所有装置中均未发现腐蚀。对从其中一个工厂收集的水中的AISI 304、AISI 316和双相2205钢进行了OCP的实验室测量。记录了同一厂废水的阴极极化曲线。在最高OCP时，阴极反应速率增加。在600 ppm氯化物溶液中进行了恒电位极化模拟。电流响应表明，在长时间的感应后，焊接的AISI 304材料和AISI 304和AISI 316钢在缝隙组件中被腐蚀。本研究的第2部分介绍了进一步测试和风险评估设计的结果。

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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British Corrosion Journal

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