Localized corrosion of carbon steel pipelines in oilfield environments is a serious concern. In environments containing both CO2 and H2S gases, pitting corrosion of carbon steel is considered to be a common occurrence which is particularly complex and still not fully understood. This paper presents a parametric study investigating the pitting corrosion behavior of carbon steel in CO2-H2S-containing environments. The work presented is divided into two parts. Part one focuses on understanding the impact of changes in three key process parameters (namely: temperature, absence/presence of 10% H2S, and absence/presence of CO2 in the gas phase) on FeS film formation process and overall the corrosion behavior of carbon steel with emphasis on general corrosion of carbon steel in a 3.5 wt% NaCl brine at 30°C and 80°C. Part two focuses on understanding the early and later stages of the pitting corrosion process, with consideration afforded to general corrosion and iron sulfide (FeS) film formation mechanisms, kinetics, and characteristics. The experiments were conducted based on short-term (7 h) and long-term tests (168 h) to investigate the early and later stages of evolution of pitting corrosion. Corrosion film properties and morphology are studied through a combination of electrochemical and surface analysis techniques which include scanning electron microscopy and x-ray diffraction. The extent of corrosion damage of the carbon steel is evaluated through the implementation of surface interferometry to study pit depth and geometry. The results show that early stages of pitting corrosion are more likely to occur with the formation of mackinawite at both 30°C and 80°C in H2S systems than in CO2 systems after 7 h. However, at 80°C extensive uniform corrosion is dominant, leading to the competing effect of iron sulfide (FeS) formation, continuous evolution of pitting corrosion, and continuous ferrite dissolution in the presence of CO2. Results from 168 h tests showed a buildup of FeS on the corroding steel surface with time with the increase in temperature and presence of CO2 in the gas phase. The buildup of FeS in H2S-CO2-containing environments is enhanced by ferrite dissolution. The FeS formed after 168 h is composed mainly of mackinawite at 30°C, and mackinawite and pyrrhotite at 80°C after 168 h. The combination of mackinawite (with a different morphology) and pyrrhotite is shown to promote more pitting and localized corrosion at 80°C than for mackinawite alone at 30°C.
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1 September 2017
CORROSION ENGINEERING SECTION|
July 26 2017
Pitting and Uniform Corrosion of X65 Carbon Steel in Sour Corrosion Environments: The Influence of CO2, H2S, and Temperature
Frederick Pessu;
Frederick Pessu
‡
*Institute of Functional Surfaces (iFS), School of Mechanical Engineering, University of Leeds, Leeds, United Kingdom. LS2 9JT.
‡Corresponding author. E-mail: [email protected].
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Richard Barker;
Richard Barker
*Institute of Functional Surfaces (iFS), School of Mechanical Engineering, University of Leeds, Leeds, United Kingdom. LS2 9JT.
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Anne Neville
Anne Neville
*Institute of Functional Surfaces (iFS), School of Mechanical Engineering, University of Leeds, Leeds, United Kingdom. LS2 9JT.
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CORROSION (2017) 73 (9): 1168–1183.
Article history
Received:
March 15 2017
Revision Received:
May 18 2017
Accepted:
May 18 2017
Citation
Frederick Pessu, Richard Barker, Anne Neville; Pitting and Uniform Corrosion of X65 Carbon Steel in Sour Corrosion Environments: The Influence of CO2, H2S, and Temperature. CORROSION 1 September 2017; 73 (9): 1168–1183. doi: https://doi.org/10.5006/2454
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