A mechanistic model was developed for predicting carbon dioxide corrosion rates of carbon steel pipes in multiphase flow conditions. The model incorporates the chemistry, thermodynamics of carbon dioxide dissolution, multiphase mass transfer, electrochemical kinetics on the metal surface and the presence of a corrosion product film. The predicted corrosion rates show good agreement with the experimental results. © 1998 by NACE International.

Madan Gopal

Electrical Engineering

(SoE) School of Engineering

S. Rajappa

R. Zhang

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