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Low cost on-site on-demand cyanide production for gold mining. This project seeks a breakthrough in providing a new, low cost, low environmental impact approach for synthesis of on-site, on-demand cyanide for gold extraction. This will facilitate economic processing of lower grade ores and enhance resource life. Also, avoiding transport of bulk cyanide to remote mine sites will improve community safety.
Industrial Transformation Research Hubs - Grant ID: IH130200004
Funder
Australian Research Council
Funding Amount
$3,966,350.00
Summary
ARC Research Hub for transforming the mining value chain. ARC Research Hub for transforming the mining value chain. This Research Hub aims to transform the mining value chain to make significant improvements to industry practices through enhancing ore deposit discovery, mineral processing, and environmental management of ores and waste materials. The Hub will bring together a team of world-class researchers, industry partners and research facilities to develop end-user driven solutions to improv ....ARC Research Hub for transforming the mining value chain. ARC Research Hub for transforming the mining value chain. This Research Hub aims to transform the mining value chain to make significant improvements to industry practices through enhancing ore deposit discovery, mineral processing, and environmental management of ores and waste materials. The Hub will bring together a team of world-class researchers, industry partners and research facilities to develop end-user driven solutions to improve profitability and productivity in Australia’s mining industry.Read moreRead less
Phosphorous and iron recovery from steelmaking slag for effective recycling. This project aims to understand the principles that control phosphorus (P) partitioning in steel plant slags and to optimise the treatment process to produce P- and Fe-rich streams for recycling. Changing ore grades in Australia, especially increasing P content, are placing a substantial proportion of these ore products at a competitive disadvantage. The project will use an integrated approach to demonstrate, experiment ....Phosphorous and iron recovery from steelmaking slag for effective recycling. This project aims to understand the principles that control phosphorus (P) partitioning in steel plant slags and to optimise the treatment process to produce P- and Fe-rich streams for recycling. Changing ore grades in Australia, especially increasing P content, are placing a substantial proportion of these ore products at a competitive disadvantage. The project will use an integrated approach to demonstrate, experimentally and theoretically, how key properties of slags can be manipulated to enhance partitioning and couple this analysis with fluid dynamics to model the kinetics of the separation process. The expected outcomes of this research are to: first, provide possible solutions to address the increasing P content in Australian iron ores, which could place future ore products at a competitive disadvantage within the global iron ore market; and second, to identify treatment methods and practices which would promote higher recycling rates of steelmaking slag, significantly reducing the volume of material stockpiled or sent to landfill.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE130100219
Funder
Australian Research Council
Funding Amount
$150,000.00
Summary
A modern, high-tech mineral separation facility for geochemistry and isotope science. This project will support geoscience research in Western Australia that incorporates a new conservative way of fragmenting rocks to their constituent grains. The facility will provide mineral samples for discovery science and for applied research for the minerals and petroleum industries.
Lower temperature ironmaking: macro and atomic-level understanding of accelerated carburisation of reduced iron. This project will gain an understanding of how iron-oxide can be simultaneously reduced and carburised in ironmaking, including the kinetics and associated mechanisms of the reaction with waste coal/iron-ore fines. This will be the key to developing a relatively low-temperature process, with significant savings in energy consumption.
Discovery Early Career Researcher Award - Grant ID: DE140101662
Funder
Australian Research Council
Funding Amount
$395,220.00
Summary
Non-Oxidative and Scalable Electrochemical Production of Functional Graphene and its Nanohybrids. The lack of cost-effective and scalable graphene production methods is the current bottleneck that impedes the commercialisation of advanced graphene-based nanomaterials. Novel electrochemical production of those functional materials directly from bulk graphite not only holds the key to the solution but also provides a non-oxidative route for the production of highly conductive graphene which is wel ....Non-Oxidative and Scalable Electrochemical Production of Functional Graphene and its Nanohybrids. The lack of cost-effective and scalable graphene production methods is the current bottleneck that impedes the commercialisation of advanced graphene-based nanomaterials. Novel electrochemical production of those functional materials directly from bulk graphite not only holds the key to the solution but also provides a non-oxidative route for the production of highly conductive graphene which is well suited for applications such as biosensing, energy storage and conversion. Besides achieving scientific breakthroughs in graphene electrochemistry, this project will directly benefit many Australian socio-economic objectives, including manufacturing of Australia's natural resources into valuable energy related products.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120101567
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Adding value to wastewater treatment - ultrasound enhanced crystallisation. The difficulty of disposing of concentrated liquid wastes is forcing industries to reassess their waste treatment processes and strive for zero liquid discharge. This project will add value to industrial waste by improving extraction of purified water and valuable solutes from such concentrates by combining ultrasound with crystallisation processes.
Fundamental investigation of the briquetting behaviour of iron ore fines. Handling, including transport and processing, may account for up to 60 per cent of the total delivered price of iron ore. This project will develop an integrated computer model for an improved briquetting process of ore fines with reduced operation cost and less environmental impact, leading to a more competitive and sustainable mineral industry in Australia.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE160100155
Funder
Australian Research Council
Funding Amount
$648,000.00
Summary
NanoMin; Quantitative Mineral Mapping of Nanoscale Processes. NanoMin: quantitative mineral mapping of nanoscale processes:
The project seeks to establish an electron microscope-based mineral mapping and analysis facility to provide rapid, quantitative and statistically reliable mineralogical, petrographic and metallurgical data unobtainable by other means in fine-grained materials. The proposed equipment can identify minerals in complex mixtures of sub-µm-grain size materials by virtue of an i ....NanoMin; Quantitative Mineral Mapping of Nanoscale Processes. NanoMin: quantitative mineral mapping of nanoscale processes:
The project seeks to establish an electron microscope-based mineral mapping and analysis facility to provide rapid, quantitative and statistically reliable mineralogical, petrographic and metallurgical data unobtainable by other means in fine-grained materials. The proposed equipment can identify minerals in complex mixtures of sub-µm-grain size materials by virtue of an integrated software and hardware system called NanoMin which incorporates a spectral deconvolution engine combined with a mineral spectra database. A key limitation in understanding complex materials is sub-micron to nanometer scale spatial variability of mineralogical phases. Imaging and quantifying these phases is now possible with the NanoMin system. This promises to open up petrological, geobiological, and materials science research in complex fine-grained materials.Read moreRead less
Persuading tourists to use fewer natural resources when on holidays. This project aims to bring sustainable reductions in resource use to mainstream tourism, one of the world’s largest, most resource-intensive sectors. The project challenges the view that pro-environmental attitudes are a pre-requisite for pro-environmental behaviours, and in doing so promotes redesigning social practices in accommodation to achieve greater sustainability outcomes. Using an experimental design, this project will ....Persuading tourists to use fewer natural resources when on holidays. This project aims to bring sustainable reductions in resource use to mainstream tourism, one of the world’s largest, most resource-intensive sectors. The project challenges the view that pro-environmental attitudes are a pre-requisite for pro-environmental behaviours, and in doing so promotes redesigning social practices in accommodation to achieve greater sustainability outcomes. Using an experimental design, this project will provide empirical evidence on the efficacy of combining smart technology and interpersonal communication into a smart-service intervention to change guest resource use. The desired outcomes will be less resource consumption, greater guest satisfaction, and an evidence-based approach to a greener mainstream economy.Read moreRead less