Effect of trace dissolved oxygen on the cathodic kinetics of carbon dioxide corrosion of carbon steel

The corrosion of carbon steel in carbon dioxide saturated brine solutions is controlled by a mixed activation-mass transfer process in the cathodic reaction mechanism. Cathodic polarisation curves of carbon steel in carbonic acid solutions exhibit a limiting current behaviour that is dependent on th...

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Bibliographic Details
Main Authors: John, D, Bailey, S, Kinsella, B, De Marco, R
Format: Conference Object
Language:English
Published: Curran Associates Inc. 2008
Subjects:
FoR 0303 (Macromolecular and Materials Chemistry)
FoR 0912 (Materials Engineering)
FoR 0913 (Mechanical Engineering)
carbon dioxide corrosion
dissolved oxygen
mass transfer
cathodic polarisation curves
jet impingement
limiting current
carbon steel
brine
Carbonic acid
Online Access:http://www.proceedings.com/15633.html
Description
Summary:The corrosion of carbon steel in carbon dioxide saturated brine solutions is controlled by a mixed activation-mass transfer process in the cathodic reaction mechanism. Cathodic polarisation curves of carbon steel in carbonic acid solutions exhibit a limiting current behaviour that is dependent on the rate of mass transfer. In studies using the jet impingement technique, the magnitude of this limiting current behaviour has been found to be strongly affected by the presence of trace levels of dissolved oxygen. This paper presents a theoretical assessment of the mass transfer limited cathodic current to illustrate the pronounced effect of dissolved oxygen contamination <15 ppb. Discussion is presented regarding the implications of dissolved oxygen contamination on the interpretation of the mechanism of carbon dioxide corrosion.

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