Carbothermal solid state reduction of manganese ore in hydrogen atmosphere. The aim of the project is to establish mechanisms of solid-state reduction of manganese ore by carbon in hydrogen and effects of gas atmosphere and other operation parameters on the reduction rate. The project will examine carbothermal reduction of manganese ore in hydrogen, helium and argon at different temperatures, ore compositions and sizes. The project's outcomes will be the reduction extent, rate and mechanisms. Th ....Carbothermal solid state reduction of manganese ore in hydrogen atmosphere. The aim of the project is to establish mechanisms of solid-state reduction of manganese ore by carbon in hydrogen and effects of gas atmosphere and other operation parameters on the reduction rate. The project will examine carbothermal reduction of manganese ore in hydrogen, helium and argon at different temperatures, ore compositions and sizes. The project's outcomes will be the reduction extent, rate and mechanisms. They will be used to assess the feasibility of solid-state reduction technology. This will be of importance to Australian manganese industry.Read moreRead less
Template-free Control of Titania Precipitation from Homogeneous Aqueous Solution. Used in the paint, plastic, ceramic, paper and synthetic fibre industries and having strategic nano-technological applications, titania is an important commodity for Australia, earning about $1.3 billion p.a. in exports. Better production methods through improved understanding of titania precipitation chemistry will help to increase our industrial productivity and minimise energy consumption. It may also lead to us ....Template-free Control of Titania Precipitation from Homogeneous Aqueous Solution. Used in the paint, plastic, ceramic, paper and synthetic fibre industries and having strategic nano-technological applications, titania is an important commodity for Australia, earning about $1.3 billion p.a. in exports. Better production methods through improved understanding of titania precipitation chemistry will help to increase our industrial productivity and minimise energy consumption. It may also lead to useful new processes and/or materials with catalytic properties. In an increasingly competitive global market, this is most relevant to Australian titania exporters and to Australian renewable energy programs (particularly for generating photovoltaic power). Read moreRead less