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Conference Proceedings

Iron Ore 2015

Conference Proceedings

Iron Ore 2015

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Reduction Kinetics and Mechanism of Pellets Prepared fromHigh-chromium Vanadium-titanium Magnetite Concentrate

High-chromium vanadium-titanium magnetite has not been exploited and made full use of on a large scale so far due to the immature utilisation technology and the reality that the utilisation efficiency of valuable metals still urgently needs to be improved. In the present paper, the isothermal reduction kinetics and mechanism of high-chromium vanadium-titanium pellets were studied at 800-1100C. The mineral composition transformation of pellets before and after reduction was analysed by means of X-ray diffraction (XRD), and the microstructures were examined by scanning electron microscope (SEM) equipped with energy dispersive X-ray (EDX) to reveal the elemental distributions. The effect of reduction temperature on the volumetric swelling degree and cold crushing strength was also studied. It was found that reduction temperature has a large effect on the reduction rate of pellets, and the increase in reduction rate is more obvious in the range 1000-1100C than 800-1000C. The volumetric swelling degree of pellets increased with increasing reduction temperature, while the cold crushing strength decreased. The transformation of mineral species can be expressed as Fe2O3_x000D_
Fe3O4_x000D_
FeO_x000D_
Fe, Fe2O33TiO2_x000D_
Fe3O4(2FeOTiO2)_x000D_
2FeOTiO2_x000D_
FeOTiO2, (Fe0.6Cr0.4)2O3_x000D_
FeOCr2O3_x000D_
Cr2O3, and Fe2O3VO/V2O3_x000D_
VO. The apparent activation energy of the reduction reaction was calculated to be 44.3 kJ/mol, and the reduction rate is controlled by the combined effect of interfacial chemical reaction and gas diffusion through the porous product layer. The rate controlling steps were further studied by calculating the resistance percentages. The interfacial chemical reaction was found to be predominant in the initial reduction stage, with the percentage effect of gas diffusion through the porous product layer gradually increasing during reduction.CITATION:Cheng, G J, Xue, X X, Liu, J X, Liu, Z G, Chu, M S, Jiang, T, Liu, B and Duan, P N, 2015. Reduction kinetics and mechanism of pellets prepared from high-chromium vanadium-titanium magnetite concentrate, in Proceedings Iron Ore 2015, pp 349-358 (The Australasian Institute of Mining and Metallurgy: Melbourne).
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  • Reduction Kinetics and Mechanism of Pellets Prepared fromHigh-chromium Vanadium-titanium Magnetite Concentrate
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  • Published: 2014
  • PDF Size: 12.364 Mb.
  • Unique ID: P201505044

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