Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100085
Funder
Australian Research Council
Funding Amount
$340,000.00
Summary
Soft matter and responsive materials characterisation facility. The processing of minerals, foods and pharmaceutical materials underpins the delivery of these materials to the community. The industries associated with the named areas have cost-driven demands for higher throughput and constraints imposed by water and energy conservation requirements. Technological advances in the processing of soft matter and responsive materials therefore offer a gateway to revolutionary changes in many aspects ....Soft matter and responsive materials characterisation facility. The processing of minerals, foods and pharmaceutical materials underpins the delivery of these materials to the community. The industries associated with the named areas have cost-driven demands for higher throughput and constraints imposed by water and energy conservation requirements. Technological advances in the processing of soft matter and responsive materials therefore offer a gateway to revolutionary changes in many aspects of our everyday lives. The outcomes from research addressing these classes of advanced materials will translate into improvements in Australian industries and in training the next generation of world leading Australian scientists and engineers using state-of-the-art technology.Read moreRead less
Depressing pyrite in selective flotation of complex polymetallic ores . This project aims to understand the reactions taking place on the major gangue (waste) mineral during the recovery of base-metal and precious minerals. The mining industry is processing low grade complex ores and experiencing difficulties in rejecting gangue minerals in mineral separation and metal extraction plants. The project will develop new technologies that manipulate these reactions to achieve mineral separation and ....Depressing pyrite in selective flotation of complex polymetallic ores . This project aims to understand the reactions taking place on the major gangue (waste) mineral during the recovery of base-metal and precious minerals. The mining industry is processing low grade complex ores and experiencing difficulties in rejecting gangue minerals in mineral separation and metal extraction plants. The project will develop new technologies that manipulate these reactions to achieve mineral separation and metal extraction efficiently and economically. These technologies may provide value in processing low quality complex polymetallic resources using low quality water, whilst halving the operating costs of mineral concentrators and providing corresponding reductions in harmful emissions.Read moreRead less
Engineering the sulphidising reactions for flotation of low quality ores. Engineering the sulphidising reactions for flotation of low quality ores. This project aims to engineer sulphidisation reactions to enhance the flotation of low quality ores for the minerals industry. Sulphidisation uses flotation to enrich base metal and precious minerals from low quality ores containing oxides and oxidised sulphides before expensive leaching or smelting. However, the current sulphidisation method is neit ....Engineering the sulphidising reactions for flotation of low quality ores. Engineering the sulphidising reactions for flotation of low quality ores. This project aims to engineer sulphidisation reactions to enhance the flotation of low quality ores for the minerals industry. Sulphidisation uses flotation to enrich base metal and precious minerals from low quality ores containing oxides and oxidised sulphides before expensive leaching or smelting. However, the current sulphidisation method is neither efficient nor widely used. This project will tailor sulphidisation reactions to generate desirable surface products that are not sensitive to flotation conditions. The intended outcome of this project is to provide a step change value in processing low quality resources while minimising the environmental effects of stockpiles.Read moreRead less