Characterisation of Pyrolytic Thermal Regions in Coal Macerals using Computer Aided Thermal Analysis. The research will assist in the fundamental understanding of coal pyrolysis mechanisms. All coal contains proportions of different fossilised plant material, which behaves differently when heated. This proposal studies thermal behaviour of the density separated fractions in Australian coals using a highly sensitive technique. The characterisation adds value and use to current coal reserves and ....Characterisation of Pyrolytic Thermal Regions in Coal Macerals using Computer Aided Thermal Analysis. The research will assist in the fundamental understanding of coal pyrolysis mechanisms. All coal contains proportions of different fossilised plant material, which behaves differently when heated. This proposal studies thermal behaviour of the density separated fractions in Australian coals using a highly sensitive technique. The characterisation adds value and use to current coal reserves and is aimed towards producing an advanced modelling capability to promote efficient coal usage in existing and future technologies. Such innovative approaches support the sustainability of Australian coal reserves, particularly in the transition towards decarbonised energy.Read moreRead less
Scaleable Microstructured Chemical Process Systems. This project seeks to revolutionize the way bulk chemicals are made industrially. By combining highly integrated process designs, with profound process intensification, we will create the basis for chemical process technology that is efficient and economical at relatively small scale. This development will reinvigorate the Australian chemical industry, with enormous benefits to the country in terms of improved security of supply of chemicals an ....Scaleable Microstructured Chemical Process Systems. This project seeks to revolutionize the way bulk chemicals are made industrially. By combining highly integrated process designs, with profound process intensification, we will create the basis for chemical process technology that is efficient and economical at relatively small scale. This development will reinvigorate the Australian chemical industry, with enormous benefits to the country in terms of improved security of supply of chemicals and fuels and reduced trade deficit. This new type of plant will be scaleable and without the technical risk normally associated with plant scale-up. At the smallest scale, it will be mobile and able to utilise remote and dispersed feedstocks such as stranded natural gas, coal bed methane, or biogas. Read moreRead less
Multiphase flows in microchannels. This project will improve our understanding of how multiphase fluids (such as a gas and a liquid or two liquids) flow in very small passages. Such flows are at the heart of almost all chemical processing and miniaturisation of chemical processes depends on our ability to design for and control them. There is a worldwide interest in microplant for chemicals manufacture and the international partner investigators are leaders in this field. The particular benefit ....Multiphase flows in microchannels. This project will improve our understanding of how multiphase fluids (such as a gas and a liquid or two liquids) flow in very small passages. Such flows are at the heart of almost all chemical processing and miniaturisation of chemical processes depends on our ability to design for and control them. There is a worldwide interest in microplant for chemicals manufacture and the international partner investigators are leaders in this field. The particular benefit to Australia lies in the possibility that miniaturised, microsctructured chemical plant could become the basis for remote, distributed manufacture that could, for example, allow natural gas processing on ocean platforms directly located at the point of production. Read moreRead less