Effects of pre-oxidation on the hydrogen-rich reduction of Panzhihua ilmenite concentrate powder: Reduction kinetics and mechanism

The objective of this study was to investigate the effect of pre-oxidation treatment on the hydrogen-rich reduction of Panzhihua ilmenite concentrate powder on the reduction ki-netics and mechanisms. In this study, reduction processes of raw and pre-oxidized ilmenite concentrates reduced by H2/CO mixtures (H2/CO = 0.4 and H2/CO = 2.5) at 950, 1000, and 1050 degrees C were systematically investigated using a thermal analyzer. The hydrogen-rich reduction rate was accelerated by the pre-oxidation treatment of raw ilmenite concentrate and an increase in H2 in H2/CO mixtures. The hydrogen-rich reduc-tion of raw and pre-oxidized ilmenite concentrates can be divided into two stages ac-cording to the first derivatives of the reduction process: Fe3+ to Fe2+ and Fe2+ to Fe. The results of the research on the model function demonstrated that the reaction mechanism of raw and pre-oxidized ilmenite concentrates were three-dimensional diffusion models in the first stage. In the second stage, the reaction mechanism of the raw ilmenite concen-trate was a phase boundary reaction model, and for the pre-oxidized ilmenite concentrate, it was a chemical reaction model. Furthermore, the apparent activation energies of both raw and pre-oxidized ilmenite concentrates under different reducing atmospheres were determined and compared. It was demonstrated that pre-oxidation treatment could effectively reduce the apparent activation energies of the reduction reaction. It is feasible to combine the advantages of the pre-oxidation treatment and hydrogen-rich reduction with a higher hydrogen ratio for the efficient reduction of Panzhihua ilmenite concentrate. (c) 2022 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.

Automated summary

The effects of pre-oxidation treatment on the hydrogen-rich reduction of Panzhihua ilmenite concentrate powder were investigated. The study found that pre-oxidation treatment and increased H2 concentration accelerated the hydrogen-rich reduction rate. The reduction process can be divided into two stages: Fe3+ to Fe2+ and Fe2+ to Fe. The apparent activation energies of both raw and pre-oxidized ilmenite concentrates were reduced by pre-oxidation treatment.