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| Mitigating corrosion of deposit-covered carbon steel in solution containing sulfate-reducing bacteria by purging nitrogen |
| Zheng-rong Ye1, Jie Yang2,3, Zheng-bin Wang2, Xiang Zhou1, Wei-dong Jiang1, Ran Yi1, Xiao-dong Cui1, Zhi-hong Zhao1 |
| 1 Research Institute of Petroleum Exploration and Development, PetroChina, Beijing 100083, China 2 CAS Key Laboratory of Nuclear Materials and Safety Assessment, Institute of Metal Research, Chinese Academy of Sciences, Shenyang 110016, Liaoning, China 3 School of Materials Science and Engineering, University of Science and Technology of China, Hefei 230026, Anhui, China |
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Abstract The corrosion behavior of a carbon steel covered by sand deposits in the solution containing sulfate-reducing bacteria (SRB) under nitrogen purging conditions was studied by electrochemical measurements and surface analyses, aiming at clarifying the mitigation effects of nitrogen purging on SRB-involved under-deposit corrosion. The electrochemical results show that the variation trend of polarization resistance with immersion time is unchanged, but the corrosion current density is the lowest in the presence of SRB and deposits under nitrogen purging conditions, as compared to that without purging nitrogen, which are confirmed by the cross-sectional corrosion morphology observation after removing the sand deposits. Moreover, it is found that there are no positive synergistic effects between SRB and deposits on corrosion under nitrogen purging conditions, corresponding to the corrosion mitigation. Such mitigation on corrosion can be attributed to the less amount of SRB-produced H2S exhausted by purging nitrogen, which is supported by X-ray photoelectron spectrometry analyses. Therefore, purging nitrogen to the solution could be a practically effective way to mitigate the corrosion of deposit-covered carbon steels in SRB-containing solutions.
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Zheng-rong Ye,Jie Yang,Zheng-bin Wang, et al. Mitigating corrosion of deposit-covered carbon steel in solution containing sulfate-reducing bacteria by purging nitrogen[J]. Journal of Iron and Steel Research International, 2023, 30(09): 1879-1887.
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2023, Vol. 30 
