Effect of Cooling Condition and Oxidation of P-concentrated Slag on Phosphorus Dissolution Behavior

Abstract

It is expected that phosphorus-concentrated slag produced by using the pyro-reaction between high phosphorus hot metal, which was prepared by the reduction of usual steelmaking slag with a small amount of hot metal, and oxidizing slag can become an important phosphorus resource instead of phosphate rock. For separating phosphorus from the phosphorus-concentrated slag, the citric acid leaching method has been reported to be available. In this study, the effects of cooling condition and oxidation treatment of phosphorus-concentrated slag on the dissolution behaviors of phosphorus and other elements were discussed. Compared to slow-cooled slag, CO₂ blowing-quenched slag did not affect dissolution of phosphorus but decreased dissolution of iron. Oxidation treatment increased the dissolution ratio of phosphorus by about twice and decreased that of iron by one-sixth. It was confirmed by the microscopic analysis of the mineral phases in these slags that the concentration of SiO₂ and FeO solid-solved in 3CaO·P₂O₅ (C₃P) phase increased by slow cooling, and they precipitated as fine Fe₂O₃–SiO₂ compound in C₃P phase by oxidation. Furthermore, the dissolution behavior of SiO₂ and FeO solid-solved in C₃P phase was investigated. Experimental results showed that the C₃P–2CaO·SiO₂ dissolved easily and the C₃P–3FeO·P₂O₅ dissolved hardly. From those experimental findings, it was presumed that the change in dissolution behavior due to slag cooling conditions and oxidation treatment were attributed to the concentration of SiO₂ and FeO in C₃P phase.