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
Regrinding chemistry and particle breakage mechanisms in increased surface hydrophobicity on fine and ultra-fine particles in mineral flotation. This project will study the effect of regrinding chemistry and particle breakage mechanisms on the redistribution of flotation collectors and the evolution of the metal oxidation species on mineral surfaces. New technologies will be developed to increase mineral surface hydrophobicity and therefore increase fine and ultra-fine particle flotation.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100021
Funder
Australian Research Council
Funding Amount
$150,000.00
Summary
A diagnostics platform for advanced plasma-chemical analysis. A wide range of production processes involve the use of plasmas to modify materials, but they are not well understood. This project will give Australian researchers the tools to look inside plasma processes and fully characterise them for the first time, unlocking new knowledge and providing new insight into the plasma processing environment.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE130100038
Funder
Australian Research Council
Funding Amount
$450,000.00
Summary
Scanning auger microscope facility for elemental imaging and characterisation of surfaces and interfaces. This project will establish a scanning auger microprobe facility as part of the Australian microscopy and microanalysis research facility. It will provide advanced characterisation and ultra-high resolution imaging of elemental species on surfaces, for researchers working in the areas of nano- and green technologies, and minerals processing.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE160100033
Funder
Australian Research Council
Funding Amount
$500,000.00
Summary
Equipment for Advanced Surface Analysis. Equipment for advanced surface analysis:
This project aims to establish equipment for advanced surface analysis to provide Australian researchers with cutting-edge capabilities in surface science. Vital chemical and physical reactions often occur at surfaces. Understanding these reactions requires analysis of the composition and electronic structure of the surface and near-surface regions. Neutral impact collision ion scattering spectroscopy and inverse ....Equipment for Advanced Surface Analysis. Equipment for advanced surface analysis:
This project aims to establish equipment for advanced surface analysis to provide Australian researchers with cutting-edge capabilities in surface science. Vital chemical and physical reactions often occur at surfaces. Understanding these reactions requires analysis of the composition and electronic structure of the surface and near-surface regions. Neutral impact collision ion scattering spectroscopy and inverse photoemission spectroscopy measure concentration depth profiles and electronic structure. The depth resolution of the profiles is in the order of the distance between two neighbouring atoms in a solid or liquid and is the best currently achievable. The equipment providing these capabilities is expected to support research with applications in photovoltaics, catalysis, colloid surfaces and interfaces, coatings and nanocomposites.Read moreRead less