Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668038
Funder
Australian Research Council
Funding Amount
$175,000.00
Summary
From Fundamentals to Complex Architecture in Free-Radical Polymerisation: Designing Future Generations of Macromolecular Materials. This research will help maintain the profile of Australia as a serious player in the important field of polymer chemistry. It will lay the groundwork for the preparation of novel materials of commercial value. These materials will enable more effective use of Australia's natural resources, support the development of high value-added Australian manufacturing industri ....From Fundamentals to Complex Architecture in Free-Radical Polymerisation: Designing Future Generations of Macromolecular Materials. This research will help maintain the profile of Australia as a serious player in the important field of polymer chemistry. It will lay the groundwork for the preparation of novel materials of commercial value. These materials will enable more effective use of Australia's natural resources, support the development of high value-added Australian manufacturing industries, and find application in human and animal medicine. They will enhance the health and well-being of the Australian community and engender a sense of wonder in susceptible members of this community.Read moreRead less
Effect of cane sugar juice composition on scaling rate and scale composition in sugar mills. The Australia sugar industry produces 1100 GWh of renewable electricity annually, abating ~1.1 M tonnes of CO2-equivalent of greenhouse gases. This can be increased if the juice evaporation performance, which largely determines the energy efficiency of the sugar factory, can be improved through reduced fouling of evaporators. This project will investigate the effect of juice composition on fouling of sug ....Effect of cane sugar juice composition on scaling rate and scale composition in sugar mills. The Australia sugar industry produces 1100 GWh of renewable electricity annually, abating ~1.1 M tonnes of CO2-equivalent of greenhouse gases. This can be increased if the juice evaporation performance, which largely determines the energy efficiency of the sugar factory, can be improved through reduced fouling of evaporators. This project will investigate the effect of juice composition on fouling of sugar factory evaporators so that a model to predict scale type and scale propensity can be developed. This will enable the development of better scale control strategies, resulting in reduced energy usage and reduced usage of the hazardous and polluting chemicals required to remove scale.Read moreRead less
Synthesis of nanocomposite polymers with targeted properties. This project aims to synthesise novel nanocomposite polymers by living radical polymerisation in water and to understand the way polymer microstructure and nanomorphology control material properties. This will provide the enabling science so that nanomaterials with targeted properties can be tailor-made for biomedical and speciality-coatings applications, and thus dispense with the current trial-and-error methodology. The innovations ....Synthesis of nanocomposite polymers with targeted properties. This project aims to synthesise novel nanocomposite polymers by living radical polymerisation in water and to understand the way polymer microstructure and nanomorphology control material properties. This will provide the enabling science so that nanomaterials with targeted properties can be tailor-made for biomedical and speciality-coatings applications, and thus dispense with the current trial-and-error methodology. The innovations in this project are the novel synthesis of complex polymer architectures in water, and the first quantitative and qualitative structure-property correlations for such materials. This will also result in a deepened understanding of the mechanisms governing the formation of these nanocomposites.Read moreRead less