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Effects of Influencing Factors on Distribution Behaviors of Vanadium between Hot Metal and FeO‐SiO 2 ‐MnO (‐TiO 2 ) Slag System
Author(s) -
Zhang Y. L.,
Zhao F.,
Wang Y. G.
Publication year - 2011
Publication title -
steel research international
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.603
H-Index - 49
eISSN - 1869-344X
pISSN - 1611-3683
DOI - 10.1002/srin.201000293
Subject(s) - slag (welding) , vanadium , materials science , metal , metallurgy , ground granulated blast furnace slag , melting temperature , analytical chemistry (journal) , chemistry , composite material , environmental chemistry , cement
The distribution behavior of vanadium between a hot metal and a FeO‐SiO 2 ‐MnO (‐TiO 2 ) slag system was studied under laboratory conditions, together with the effects of influencing factors such as temperature, slag composition, the ratio of slag to hot metal, and the initial Si and/or Ti content in hot metal. The results suggested that in a ternary FeO‐SiO 2 ‐MnO slag system, with an increase in temperature and an increase in the SiO 2 content of slag, the extraction ratio ( $\eta _{V} $ ), distribution ratio of V ( $L_{V} $ ) and the vanadium capacity of the slag ( $C_{VO_{3} {}^{3{-} } } $ ) decreased, while the effect of MnO content in slag showed a different tendency under different situations. For both high and low ratios of slag to hot metal, the extraction ratio of V reached its maximum value under slag compositions of 13%–25% MnO and 10%–24% SiO 2 , which correspond to the regions with lower melting point and lower viscosity of the slag. In a quaternary FeO‐SiO 2 ‐MnO‐TiO 2 slag system, $\eta _{V} $ , $L_{V} $ , and $C_{VO_{3} {}^{3{-} } } $ decreased, while the activity coefficient of V 2 O 3 increased, as the TiO 2 content increased. Further, the data suggested that under laboratory conditions the effects of influencing factors on the extraction ratio of V from hot metal decreased in the following order: final slag composition > temperature > initial Si and/or Ti content in hot metal.