Abstract
This study discusses the oxidation induration and swelling behavior of chromium-bearing vanadium titanomagnetite pellets (CVTP) with Co2O3 additions. The reduction swelling index (RSI) and compressive strength of reduced CVTP (CSRC) were investigated with simulated coke oven gas (COG). The results show that the compressive strength (CS) of CVTP decreases from 2448 to 1983 N and the porosity of CVTP increases from 14.86 to 22.49% with increasing Co2O3 additions. The Co2O3 mainly exists in the form of CoFe2O4 in both of CVTP and reduced CVTP, and the CoFe2O4 is hard to be reduced by thermodynamic calculation. The Co-bearing phase mainly distributes on gap edges and among adjacent hematite grains. Many cracks and pores distribute along the grain boundaries and damage the connection of hematite grains. The CSRC decreases from 901 to 376 N, and RSI of reduced CVTP increases from 5.87 to 9.05% with increasing Co2O3 additions. The Co2O3 addition facilitates the aggregation and diffusion of metallic iron particles, and the aggregations of metallic iron thicken the lamellar crystals. The pores and interval of grains enlarge with increasing Co2O3 additions. This study can supply the theoretical and technical basis for the utilization of CVTP and waste residue-bearing cobalt with COG recyclable technology.
Highlights
The blast furnace (BF) is widely used in the ironmaking process and has been the primary ironmaking method
The oxidation induration process of chromium-bearing vanadium titanomagnetite pellets (CVTP) includes a series of physical-chemical reactions
It is revealed that the primary phases of CVTP without Co2 O3 addition are Fe2 O3 and Fe2 TiO5
Summary
The blast furnace (BF) is widely used in the ironmaking process and has been the primary ironmaking method. In order to strength the smelting of CVTM and decrease the CO2 emission, the hydrogen smelting technology using COG was studied in the reduction swelling of pellets. Liu [8] considered that the operation of COG injection into BF could increase hot metal productivity and decrease coal ratio, coke ratio, and carbon emission of BF. Li [16,17] studied the effect of V2 O5 on the oxidation induration and reduction process of vanadium titanomagnetite and the V2 O5 decreases the CS of pellets and accelerates the reduction of pellets with the increase of porosity with simulated shaft furnace gas. Co2 O3 addition on reduction swelling behavior of CVTP with simulated COG was investigated These results will provide theoretical and technical bases for the production of CVTP and waste residue-bearing cobalt with COG recyclable technology
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