The significant impacts of morphological and interface stability on gas/solid reaction kinetics and for metals production. This project will provide fundamental scientific information on the reduction of metal oxides in hydrocarbon based systems, information required to successfully reduce Greenhouse gas emissions in metal production technologies. It will also extend our understanding of the fundamental science of decomposition of inorganic metal compounds.
Modelling of particle-fluid reactive flows coupled with phase changes. This project aims to develop an integrated mathematical model for reliably describing multiphase reactive flow coupled with phase change. Particle-fluid reactive flows with phase changes are widely encountered in many energy-intensive industries, yet process design and optimization are hindered by the lack of understanding of complex phenomena governing particularly multiphase flow, phase change and their interactions. The m ....Modelling of particle-fluid reactive flows coupled with phase changes. This project aims to develop an integrated mathematical model for reliably describing multiphase reactive flow coupled with phase change. Particle-fluid reactive flows with phase changes are widely encountered in many energy-intensive industries, yet process design and optimization are hindered by the lack of understanding of complex phenomena governing particularly multiphase flow, phase change and their interactions. The model will be achieved by means of combining advanced particle-scale numerical techniques with pre-database-based thermodynamic model, supported by physical experiments. The outcomes will be applied across a range of industries of vital importance to Australian economic and technological future. It will help transform Australian pyrometallurgy and chemical industries, open new markets for a range of Australian minerals like low-grade coal and iron/copper ore, and ultimately enhance competitiveness of Australian economy.Read moreRead less
New thermodynamic database development method for increasingly complex chemical systems supporting electric car battery recycling and other industries. This strategic project will provide Australia with advanced research capability in high temperature thermochemistry and technology development fields, and support the development of the recycling processes for hazardous but valuable materials from electric car rechargeable batteries-part of solution to global warming and increasing CO2 emissions.