A model is presented for the prediction of the corrosion rate by carbon dioxide (CO2) under dewing conditions. A mechanistic approach is developed that takes into consideration the hydrodynamics, thermodynamics, heat and mass transfer, chemistry, and electrochemistry during the phenomenon of top-of-the line corrosion. This model is validated by experimental data. It offers a better insight into the role played by primary parameters such as temperature, total pressure, partial pressure of CO2, gas velocity, and condensation rate.

Subject
Water, Corrosion rate, Top of the line corrosion, Walls, Condensation rates, Ferrous ions, Gas velocity, Partial pressures, Liquids, Condensed water, Mass transfer, Corrosion probes, Scaling
Keywords:
carbon dioxide corrosion modeling, condensation rate, corrosion rate, noncondensable gas, protective scale, scaling tendency, top-of-the line corrosion
NACE International
2003
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