硝酸还原菌在人工北京土壤中对 X80 管线钢的微生物影响腐蚀。

Microbiologically influenced corrosion of X80 pipeline steel by nitrate reducing bacteria in artificial Beijing soil.

机构信息

Corrosion and Protection Center, Key Laboratory for Corrosion and Protection (MOE), University of Science and Technology Beijing, Beijing 100083, China; Institute for Advanced Materials and Technology, University of Science and Technology Beijing, Beijing 100083, China.

出版信息

Bioelectrochemistry. 2020 Oct;135:107551. doi: 10.1016/j.bioelechem.2020.107551. Epub 2020 May 13.

DOI:10.1016/j.bioelechem.2020.107551

PMID:32470907

Abstract

In this work, we investigated microbiologically influenced corrosion (MIC) of X80 pipeline steel caused by nitrate-reducing bacteria Brevibacterium frigoritolerans (B. frigoritolerans) in an artificial Beijing soil using electrochemical measurements and surface analyses under aerobic conditions. The B. frigoritolerans was isolated from the surrounding soil of the X80 pipeline steel specimen in Beijing using culturing and molecular biology techniques. Confocal laser scanning microscopy images showed that the largest pit depth after 14 days due to B. frigoritolerans was approximately 7.16 μm. Electrochemical tests showed that the B. frigoritolerans could change the stability of the corrosion products on the 7th day. Inhomogeneous biofilm and the conductivity of FeO accelerated the corrosion process. The presence of NH on the surface of the X80 pipeline steel revealed that the B. frigoritolerans acted as a biological cathode to promote the cathodic reaction.

摘要

在这项工作中，我们使用电化学测量和有氧条件下的表面分析研究了在人工北京土壤中由硝酸盐还原菌 Brevibacterium frigoritolerans (B. frigoritolerans)引起的 X80 管道钢的微生物影响腐蚀 (MIC)。B. frigoritolerans 是使用培养和分子生物学技术从北京 X80 管道钢试样周围的土壤中分离出来的。共聚焦激光扫描显微镜图像显示，由于 B. frigoritolerans，14 天后最大的蚀坑深度约为 7.16 μm。电化学测试表明，B. frigoritolerans 可以在第 7 天改变腐蚀产物的稳定性。不均匀的生物膜和 FeO 的电导率加速了腐蚀过程。X80 管道钢表面存在 NH，表明 B. frigoritolerans 充当生物阴极，促进阴极反应。

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硝酸还原菌在人工北京土壤中对 X80 管线钢的微生物影响腐蚀。

Microbiologically influenced corrosion of X80 pipeline steel by nitrate reducing bacteria in artificial Beijing soil.

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