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Iron carburization in CO-H2-He gases, Part II: Numerical model

✍ Scribed by Zhe Wang; Richard A. Yetter

Publisher
John Wiley and Sons
Year
2009
Tongue
English
Weight
387 KB
Volume
41
Category
Article
ISSN
0538-8066

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✦ Synopsis

Abstract

A numerical model for the carburization of iron in CO‐H~2~‐He mixtures was developed and compared with experimental data over the temperature range of 850°C–1150°C, CO partial pressures from 1% to 12%, and H~2~ partial pressures from 5% to 99%. The reaction mechanism was established on the basis of data input from recent quantum mechanical and molecular dynamics calculations as well as from rate constant estimates from kinetic and transition state theory. Sensitivity and reaction flux analyses were performed to identify the rate‐controlling and fastest reactions. Model predictions of carbon weight gain in iron samples versus time were compared with experimental data. The most sensitive reactions were refined by least‐squares fitting the model to the experiment. The resulting model can simulate and predict the trends of iron carburization in CO‐H~2~‐He‐CO~2~‐H~2~O mixtures for most conditions studied experimentally. Critical reactions and model parameters are identified for additional study to improve the model and understanding of the carburization mechanism. © 2009 Wiley Periodicals, Inc. Int J Chem Kinet 41: 337–348, 2009

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