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Stepwise carbothermal reduction of bauxite ores

Conference Paper


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Abstract


  • The commercial technologies for aluminium production include production of alumina from bauxite and smelting of alumina to produce aluminium. The current technology is energy intensive, a major source of greenhouse gas emissions and harmful fluoride emissions. Carbothermal reduction of bauxite is a promising alternative technology for aluminium and aluminoalloy production. Western Australian and Queensland bauxite ores were carbothermally reduced in steps in argon. Experiments were performed in a high temperature vertical tube furnace, and the off-gas composition was monitored using an infra-red gas analyser. The phase composition of reduced samples was characterised by XRD. Oxygen and carbon contents in reduced samples were determined by LECO analysers. The morphology of the surface and intersections was observed by SEM. The chemical compositions of the phases in the reduced samples were detected by EDS. The results of this study have proved the concept of stepwise reduction of bauxite ores in solid state by appropriate control of reduction temperature. Below 1100°C, only iron oxides were reduced to metallic iron. A ferroalloy phase was formed at 1200°C and above. The products in the bauxites reduced to 1600oC include ferroalloy of silicon and aluminium, carbides of titanium, silicon and aluminium, and unreacted alumina.

Publication Date


  • 2013

Citation


  • Yeh, C. Hung. & Zhang, G. (2013). Stepwise carbothermal reduction of bauxite ores. Proceedings of the Thirteenth International Ferroalloys Congress: Efficient Technologies in Ferroalloy Industry (pp. 749-757). Karaganda, Kazakhstan: P.Dipner.

Ro Full-text Url


  • http://ro.uow.edu.au/cgi/viewcontent.cgi?article=2072&context=eispapers

Ro Metadata Url


  • http://ro.uow.edu.au/eispapers/1063

Start Page


  • 749

End Page


  • 757

Abstract


  • The commercial technologies for aluminium production include production of alumina from bauxite and smelting of alumina to produce aluminium. The current technology is energy intensive, a major source of greenhouse gas emissions and harmful fluoride emissions. Carbothermal reduction of bauxite is a promising alternative technology for aluminium and aluminoalloy production. Western Australian and Queensland bauxite ores were carbothermally reduced in steps in argon. Experiments were performed in a high temperature vertical tube furnace, and the off-gas composition was monitored using an infra-red gas analyser. The phase composition of reduced samples was characterised by XRD. Oxygen and carbon contents in reduced samples were determined by LECO analysers. The morphology of the surface and intersections was observed by SEM. The chemical compositions of the phases in the reduced samples were detected by EDS. The results of this study have proved the concept of stepwise reduction of bauxite ores in solid state by appropriate control of reduction temperature. Below 1100°C, only iron oxides were reduced to metallic iron. A ferroalloy phase was formed at 1200°C and above. The products in the bauxites reduced to 1600oC include ferroalloy of silicon and aluminium, carbides of titanium, silicon and aluminium, and unreacted alumina.

Publication Date


  • 2013

Citation


  • Yeh, C. Hung. & Zhang, G. (2013). Stepwise carbothermal reduction of bauxite ores. Proceedings of the Thirteenth International Ferroalloys Congress: Efficient Technologies in Ferroalloy Industry (pp. 749-757). Karaganda, Kazakhstan: P.Dipner.

Ro Full-text Url


  • http://ro.uow.edu.au/cgi/viewcontent.cgi?article=2072&context=eispapers

Ro Metadata Url


  • http://ro.uow.edu.au/eispapers/1063

Start Page


  • 749

End Page


  • 757