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Abstract
Pre-reduced ferrochromium with high recovery yield of chromium is expected to decrease the overall energy consumption for ferrochromium production. The advantages of pre-reduced in comparison with lump ore in charging electric furnace for ferro-chromium production are: i) low consumption of electric energy; ii) use of fines of chromite and reductant; iii) better operational control of the electric furnace. The self-reducing pellets containing Brazilian chromite (Jacurici concentrate), petroleum coke and 2% Fe-75%Si, were agglomerated with Portland cement. For each experiment ~200g of pellets was used and they were placed at reduction zone (1773K) in a laboratory rotary kiln furnace. Experiments with 5, 10 and 30 minutes were made. The reduced pellets were analyzed by scanning electronic microscopy and it was observed: practically complete reductions of Cr and Fe; formation of a continuous slag phase at 30 minutes; a pre-reduced with compression strength of 130 kgf and without re-oxidation. The results have shown a great potential for use of this self-reducing process for high carbon ferro-chromium production.
Pre-reduced ferrochromium with high recovery yield of chromium is expected to decrease the overall energy consumption for ferrochromium production. The advantages of pre-reduced in comparison with lump ore in charging electric furnace for ferro-chromium production are: i) low consumption of electric energy; ii) use of fines of chromite and reductant; iii) better operational control of the electric furnace. The self-reducing pellets containing Brazilian chromite (Jacurici concentrate), petroleum coke and 2% Fe-75%Si, were agglomerated with Portland cement. For each experiment ~200g of pellets was used and they were placed at reduction zone (1773K) in a laboratory rotary kiln furnace. Experiments with 5, 10 and 30 minutes were made. The reduced pellets were analyzed by scanning electronic microscopy and it was observed: practically complete reductions of Cr and Fe; formation of a continuous slag phase at 30 minutes; a pre-reduced with compression strength of 130 kgf and without re-oxidation. The results have shown a great potential for use of this self-reducing process for high carbon ferro-chromium production.
Keywords
Chromite; Self-reducing agglomerate; Ferrochromium.
Chromite; Self-reducing agglomerate; Ferrochromium.
How to refer
Zambrano, Adolfo Pillihuaman;
Takano, Cyro;
Nogueira, Alberto Eloy Anduze;
Ribeiro, Tiago Ramos;
Mourão, Marcelo Breda.
PRE-REDUCED FERROCHROMIUM FROM SELF- REDUCING PELLETS OF CHROMITE
,
p. 217-227.
In: 7th Japan-Brazil Syposium on Dust Processing-Energy-Environment and 1st International Seminar On Self-Reducing and Cold Bonded Agglomeration,
São Paulo,
2008.
ISSN: -
, DOI 10.5151/5463-5463-0024