Microbially induced corrosion issues in the underground buried crude oil and natural gas bearing pipelines: A review

Bairi, Lipika Rani; Bhuyan, Pallabi; Ghosh, Anirban; Narang, Mandeep; Mandal, Sumantra

doi:10.1002/maco.202313950

Materials & Corrosion

2023

DOI: 10.1002/maco.202313950

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Microbially induced corrosion issues in the underground buried crude oil and natural gas bearing pipelines: A review

Lipika Rani Bairi,

Pallabi Bhuyan,

Anirban Ghosh

et al.

Abstract: Microbially induced corrosion (MIC) damage in crude oil and natural gas‐bearing pipelines is a severe threat for the petroleum industries. This is primarily due to the presence of hydrocarbons, which serve as nutrients for microorganisms. The comfortable growth of these microorganisms in hydrocarbon systems ultimately results in enhanced degradation of the pipelines. Hence, to understand the effect of microorganisms on the degradation of petroleum hydrocarbons and its subsequent influence on the corrosion of p… Show more

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Cited by 5 publications

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“…On the hand, MIC studies used to be mainly revolving around the impact of sulfate-reducing bacteria (SRB), and have now moved to consider the importance of other groups of bacteria and archaea. An example is Pseudomonas family whose corrosive impact on engineering materials is known at least from 1962 (Eagon, 1962) and have been isolated from many oil and gas sites around the world (Bairi et al, 2023) their impact on accelerating corrosion via rapid biofilm (Temenos) formation (Mansouri et al, 2014;Javaherdashti, 2017).…”

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confidence: 99%

Editorial: Microbiologically influenced corrosion (MIC): its mechanisms, technological, economic, and environmental impacts

Javaherdashti

2023

Front. Microbiol.

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mentioning

confidence: 99%

Editorial: Microbiologically influenced corrosion (MIC): its mechanisms, technological, economic, and environmental impacts

Javaherdashti

2023

Front. Microbiol.

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Influence of initial pH and sulfate‐reducing bacteria concentration on the microbiologically influenced corrosion of buried pipeline steel

Liu,

Bi,

et al. 2024

Materials & Corrosion

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Microbiologically influenced corrosion (MIC) caused by sulfate‐reducing bacteria (SRB) is a major threat to buried pipelines. The crevices beneath disbonded coatings provide the environment for the survival and growth of SRB, accelerating the attachment of SRB and significantly reducing the effectiveness of buried pipelines. In this work, the influence of initial pH values (6.4, 8.0) and SRB concentrations (2.0 × 101, 4.5 × 102, 2.5 × 103 cells/mL) were investigated on the behaviors of L415 carbon steel. The results indicated that the overall uniform corrosion rate of L415 carbon steel decreased while the maximum pitting corrosion rate exhibited an increasing trend with the increasing of initial concentration of SRB. In comparison to the pH 6.4 environment, the overall risk of pitting corrosion in pH 8.0 environment was reduced due to the biomineralization of SRB, enhancing the protection of metal materials.

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Research on Crude Oil Transportation Technology of Hu-Huan Pipeline in Huanqing Block

Bian,

Ba,

et al. 2024

J. Phys.: Conf. Ser.

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This study comprehensively analyzes the performance of the Hu-Huan-Huan Pipeline (Hu-Huan Pipeline) in the Huanqing Block under different crude oil transportation processes, especially the additive-modified transportation process and the blank oil transportation process. Through in-depth analysis of the properties of additive-modified crude oil, simulation tests, and hydraulic and thermal calculations, it aims to solve the transportation challenges of the Hu-Huan Pipeline under extreme environmental conditions and ensure the safety, efficiency, and economy of pipeline operations. Research results show that the additive-modified transportation process can significantly improve the fluidity of crude oil and enhance transportation capacity and safety. Adding an appropriate amount of additives can reduce the viscosity of crude oil, reduce internal friction in the pipeline, and improve fluid movement efficiency, thereby effectively reducing transmission pressure loss and increasing transportation stability. In contrast, although the blank oil delivery process is feasible under certain conditions, it has limitations under extreme conditions. The viscosity of blank oil is high and it is easy to form scaling on the inner walls of pipelines, which increases the frequency of pipeline cleaning and maintenance, and also increases operating costs and risks. By comparing and analyzing the performance of the two processes, the best transportation strategies and suggestions for Hu-ring pipelines are put forward. For the additive-modified transportation process, it is recommended to add additives appropriately and optimize transportation parameters to ensure stable transportation of crude oil and safe operation of the pipeline system. For the blank oil transportation process, it is recommended to clean and maintain the pipeline regularly to reduce the occurrence of scaling and blockage and improve the reliability and sustainability of the system. In summary, this study provides an important reference for the optimized operation of similar pipeline systems in the future. By fully considering the impact of crude oil performance and transportation technology, pipeline transportation efficiency can be effectively improved, operational risks can be reduced, and the safety and sustainability of energy transportation can be ensured.

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Microbially induced corrosion issues in the underground buried crude oil and natural gas bearing pipelines: A review

Cited by 5 publications

References 81 publications

Editorial: Microbiologically influenced corrosion (MIC): its mechanisms, technological, economic, and environmental impacts

Editorial: Microbiologically influenced corrosion (MIC): its mechanisms, technological, economic, and environmental impacts

Influence of initial pH and sulfate‐reducing bacteria concentration on the microbiologically influenced corrosion of buried pipeline steel

Research on Crude Oil Transportation Technology of Hu-Huan Pipeline in Huanqing Block

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