Rate of reduction of ferric and ferrous oxide from calcia-silica-alumina slag by carbon in liquid iron

Reduction of ferric and ferrous oxide from calcia-silica-alumina slag by ca rbon in liquid iron has been studied. A base slag (48%CaO-40%SiO2-12%Al2O3) containing iron oxide (less than 16 wt% total iron) was reduced by carbon dissolved in a liquid iron bath (approx. 4 wt% C). The temperature was in t he range 1 400-1 600 degrees C. The reaction rate was calculated from measu rements of the total inlet gas flow rate and the CO concentration in the ou tlet gas stream. Slag and metal samples were taken in some experiments. Two observations are reported: the apparent rate constant decreases as the rea ction rate decreases; and most ferric oxide (Fe2O3) is reduced before any f errous oxide (FeO) is reduced. The authors conclude that the apparent rate constant is the mass transfer coefficient for ferrous cations in the slag p hase, and that the overall reduction rate is determined by the mass transfe r rate of ferrous cations when only ferrous oxide remains in the slag (ia a ll the ferric oxide has been reduced).