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An Estimation of Component Activity of Vanadium-bearing Liquid Iron and Transition Temperature of Vanadium Oxidization Using MIVM |
Ya-yu LI,Zhen-nan LIU,Dong-ping TAO |
Faculty of Metallurgical and Energy Engineering, Kunming University of Science and Technology,Kunming 650093, Yunnan, China |
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Abstract The component activity of Mn in Fe-C-Mn system as well as the component activities of C and Si in Fe-C-Si system was predicted by applying the pseudo-multicomponent approach of the molecular interaction volume model (MIVM) and the Wagner interaction parameter formalism (WIPF) respectively. The average relative errors between the predicted values of MIVM and the experimental data for the three components were 4. 5%, 17. 0% and 13. 0%, respectively, and those between the calculation results of the WIPF and the experimental data were 18. 0% for Mn, 9. 0% for C and 27. 0% for Si. The results indicated that the MIVM method could better predict the component activity of carbonaceous iron-based solution. Based on the data in an actual blowing process, the MIVM method was applied to predict the component activities of C and V as well as the transition temperature of vanadium oxidization (TTVO) in Fe-C-V-Si quaternary iron-based solution, and a comparative analysis of the predictions against the experimental data was carried out, with their average relative errors being 24. 0% for C, 7. 3% for V and 1. 0% for TTVO respectively. On that basis, the TTVO at Panzhihua Iron and Steel (Group) Co. , Ltd. was estimated by the MIVM method and an expression that the TTVO changed with composition and temperature of iron solutions was obtained by multiple linear regression method. The research results showed that the estimated values were in good agreement with the practical data.
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Received: 03 March 2014
Published: 17 July 2015
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Fund:The Study of Physical and Chemical Properties and Related Calculation Model of V-Ti Resources in Metallurgical Process;The Study of Molecular Thermodynamic Model and Application of Slag |
Corresponding Authors:
TAO
E-mail: dongpingt@aliyun.com
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