microbiologically influenced corrosion of x52 pipeline

  • microbiologically influenced corrosion of x52 pipeline

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Y. Frank Cheng's research works | The University of Calgary microbiologically influenced corrosion of x52 pipeline

In this work, microbiologically influenced corrosion (MIC) of an X52 pipeline steel in thin layers of simulated soil solution in the presence of sulfate-reducing bacteria (SRB) under a disbonded microbiologically influenced corrosion of x52 pipeline Related searches microbiologically influenced corrosion of x52 pipeline

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Publications | University of Calgary 198. Ke Yin, Hongwei Liu, Y. Frank Cheng, Microbiologically influenced corrosion of X52 pipeline steel in thin layers of solution containing sulfate-reducing bacteria trapped under disbonded coating, Corrosion Science 145 (2018) 271-282. 197.

Mitigation of Corrosion Problems in API 5L Steel Pipeline A microbiologically influenced corrosion of x52 pipeline

the transportation of oil and gas are sweet corrosion, sour corrosion and microbiologically influence corrosion (MIC), which leads to pitting corrosion on the surface of the steel pipeline [7, 8, 16-19]. Sweet corrosion is due to the presence of carbon dioxide and water, the carbon dioxide dissolved in the water to form carbonic acid, Microbial corrosion of initial perforation on abandoned microbiologically influenced corrosion of x52 pipeline In this work, the microbial corrosion inside a perforation on an X52 pipeline steel was investigated in wet soil containing sulfate-reducing bacteria (SRB) by biotesting, electrochemical measurements, including open-circuit potential, electrochemical impedance spectroscopy and potentiodynamic polari Methanogenic archaea and sulfate reducing bacteria induce microbiologically influenced corrosion of x52 pipeline This study investigated the mechanism of microbiologically influenced corrosion (MIC) that led to failure of X52 steel pipelines after hydrostatic testing. Laboratory hydrostatic testing with untreated lake water and underground water were used to simulate and study the events that led to the actual corrosion.

Mechanism of microbiologically influenced corrosion of X52 microbiologically influenced corrosion of x52 pipeline

Mechanism of microbiologically influenced corrosion of X52 pipeline steel in a wet soil containing sulfate-reduced bacteria Author links open overlay panel Hongwei Liu Y. Frank Cheng Show more Localized Corrosion of API X52 and API X65 Pipeline Steels in microbiologically influenced corrosion of x52 pipeline The electrochemical noise technique (ENT), due to its nonperturbation and simplicity, has emerged as an alternative technique for corrosion studies to detect MIC.3-7 In the present study, ENT was used to evaluate the corrosion behavior of the API X52(1) and API X65 pipeline steels in suction seawater and treated seawater obtained from a microbiologically influenced corrosion of x52 pipeline Ke (Skye) Yin - Technologist - Charter Coating Service (2000 microbiologically influenced corrosion of x52 pipeline View Ke (Skye) Yins profile on LinkedIn, the worlds largest professional community. Ke (Skye) has 2 jobs listed on their profile. See the complete profile on LinkedIn and discover Ke (Skye)s connections and jobs at similar companies.

Electrochemical Characterization of Microbiologically microbiologically influenced corrosion of x52 pipeline

In-situ electrochemical techniques were used to investigate the microbiologically influenced corrosion (MIC) of API 5L X52 linepipe steel by Desulfovibrio sp. (sulfate reducing bacteria; SRB) cultivated from a sour oil well in Louisiana, USA. These techniques include electrochemical impedance Effects of Magnetic Fields on Microbiologically Influenced microbiologically influenced corrosion of x52 pipeline Corrosion of antibacterial Cu-bearing 316L stainless steels in the presence of sulfate reducing bacteria. Corrosion Science 2018, 132, 46-55. DOI: 10.1016/j.corsci.2017.12.006. Hongwei Liu, Y. Frank Cheng. Mechanism of microbiologically influenced corrosion of X52 pipeline steel in a wet soil containing sulfate-reduced bacteria. Effect of Microstructure on Hydrogen Diffusion in Weld and microbiologically influenced corrosion of x52 pipeline Microbiologically influenced corrosion (MIC) is a major problem in many industries, such as oil and gas. According to Xu et al. [14] many attacks of anaerobic MIC can be classified by two types based on the two anaerobic metabolisms: respiration and fermentation.

EFFECT OF CONCENTRATION AND TEMPERATURE OF ETHANOL IN FUEL microbiologically influenced corrosion of x52 pipeline

(including pipeline, tanks, piping, and filters) where conditions are suitable for growth, especially during system upsets, may allow for susceptibility to microbiologically influenced corrosion (MIC) of steel components. MIC has been found in aqueous environments, oil wells, fuel transmission lines, and fuel storage EFFECT OF ETHANOL FUEL AND MICROBIOLOGICALLY INFLUENCED microbiologically influenced corrosion of x52 pipeline acid producing bacteria, biofuel, fuel grade ethanol, fatigue crack growth, microbiologically influenced corrosion, pipeline steel, X52, X70 Materials characterization and Metals Created January 25, 2012, Updated February 19, 2017 EFFECT OF ETHANOL FUEL AND MICROBIOLOGICALLY INFLUENCED microbiologically influenced corrosion of x52 pipeline microbiologically influenced corrosion (MIC) [11]. Pope et al. showed that APB promoted localized corrosion of natural-gas pipeline steel at inclusion sites [12]. The observed corrosion damage was distinct from corrosion produced by protic acid (including that produced by SRB and H 2 SO 4) of the same pH.

Coatings | Free Full-Text | Galvanic Corrosion Due to a microbiologically influenced corrosion of x52 pipeline

Microbiologically influenced corrosion (MIC) has been considered as one of the key reasons causing the failure of pipelines [1,2].Sulfate reducing bacteria (SRB) have been commonly found in various environments, including oil produced water, sea water, soil, and sewage [3,4]. An investigation of microbial diversity in crude oil &amp microbiologically influenced corrosion of x52 pipeline During oil and gas operations, pipeline networks are subjected to different corrosion deterioration mechanisms that result from the interaction between the fluid process and the linepipe steel. Among these mechanisms is microbiologically influenced corrosion (MIC) that results from accelerated deterioration caused by different indigenous microorganisms that naturally reside in the hydrocarbon microbiologically influenced corrosion of x52 pipeline Y. (Frank) Cheng | Research | University of Calgary Microbiologically influenced corrosion of X52 pipeline steel in thin layers of solution containing sulfate-reducing bacteria trapped under disbonded coating. Corrosion Science , 145 , 271-282. [ Read more ]

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