Kinetic study on non-equilibrium oxygen transfer in interfacial process

Acta Metall Sin

2007, Vol. 43

Issue (8): 829-833 DOI:

Research Articles

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Kinetic study on non-equilibrium oxygen transfer in interfacial process

Xiao-Jun HU

北京科技大学冶金与生态工程学院理化系

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Xiao-Jun HU. Kinetic study on non-equilibrium oxygen transfer in interfacial process. Acta Metall Sin, 2007, 43(8): 829-833 .

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Abstract Divided into two steps of a chemical reaction and a mass transfer process, the interfacial kinetics of oxygen transfer between two phases has been resolved mathematically, and a kinetic model has also been obtained. It was shown that the interfacial concentration of oxygen is varied with the process, so the oxygen transfer can be considered as a non-equilibrium process. By this model, the experimental data of some systems had been fitted. The results show that it is in good accordance with the experimental data and that the obtained parameters can explain the experimental phenomena well. In addition, the preliminary discussion on the meaning of parameters and their effect on the kinetics had been made.

Key words: interfacial process oxygen transfer non-equilibrium kinetics

Received: 20 October 2006

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[1]Lu X G,Li F S,Li L F,Zhou G Z.Acta Metall Sin,1999; 35:743 (鲁雄刚，李福(?)，李丽芬，周国治．金属学报，1999；35：743)
[2]Zhao Y T,Sun J X,Dai Q X,Cheng X N,Lin D Y.Chin J Nonferrous Met,2005;15:1343 (赵玉涛，孙建祥，藏起勋，程晓农，林东洋．中国有色金属学报，2005；15：1343)
[3]Chou K C.J Am Ceram Soc,2006;89:1568
[4]Hu X J,Matsuura H,Tsukihashi F.CAMP ISIJ,2005; 18:162
[5]Hu X J,Matsuura H,Tsukihashi F.ISIJ Int,2006;46: 974
[6]Matsuura H,Hu X J,Tsukihashi F.J Mass Spectrom Soc Jpn,2005;53:257 (松蒲宏行，胡晓军，月桥文孝．质量分析，2005；53：257)
[7]Krishna M G G,Hasham A,Pal U B.Ironmaking Steel- making,1993;20:191
[8]Lu X G.PhD Dissertation,University of Science sad Technology Beijing,1997 (鲁雄刚．北京科技大学博士学位论文．1997)
[9]LüR X.Master Thesis,University of Science and Tech- nology Beijing,2003 (吕日兴．北京科技大学硕士学位论文，2003)

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