A program of re-planting native mallee trees, which can be harvested on a short rotation cycle, has been initiated in Western Australia to counteract increasing soil salinity in the wheat belt region. Large volume applications for the wood products generated by these plantings are required to improve the returns to farmers. The metallurgical industry is a large-scale user of carbon, and a project was carried out through the Centre for Sustainable Resource Processing to investigate the use of mallee-derived carbons in metallurgical processes. The use of renewable carbon sources, such as charcoal, to replace fossil carbon has the additional benefit of reducing the net CO2 generated by the metallurgical industry. Experiments were undertaken to assess the performance of mallee derived charcoals as reductants for the solid state reduction of ilmenite and for iron ore bath smelting. Rotary drum reduction tests showed that the reduction rate of ilmenite with the mallee charcoal was approximately twice that of Collie coal at the same fixed carbon/ilmenite ratio in the bed. Iron bath and slag bath injection tests demonstrated that the mallee charcoals dissolved readily in molten iron carbon baths and reacted efficiently with iron making slags._x000D_
FORMAL CITATION:Langberg, D E, Somerville, M A, Freeman, D E and Washington, B M, 2006. The use of mallee charcoal in metallurgical reactors, in Proceedings Green Processing 2006, pp 69-76 (The Australasian Institute of Mining and Metallurgy: Melbourne).