Fibre-reinforced composites: Single-crystal mullite fibres from topaz. The project aims to develop the means of fabricating single-crystal mullite fibres from topaz that are suitable for reinforcement of metal and ceramic matrix composites. Single-crystal mullite is the most sought after fibrous additive, but is not available commercially. It is expected to attract an immediate clientele in laboratories and companies servicing the aviation industry and the military. This will allow large depos ....Fibre-reinforced composites: Single-crystal mullite fibres from topaz. The project aims to develop the means of fabricating single-crystal mullite fibres from topaz that are suitable for reinforcement of metal and ceramic matrix composites. Single-crystal mullite is the most sought after fibrous additive, but is not available commercially. It is expected to attract an immediate clientele in laboratories and companies servicing the aviation industry and the military. This will allow large deposit of topaz in Torrington, NSW to be used to develop a high-value niche product (fibres) and a large-volume, low-value product (fluoride). This will provide significant economic and environmental benefits and it addresses the research priorities - Resources and Advanced Manufacturing.Read moreRead less
Biogeochemical controls on efficacy and sustainability of uranium heap leaching. Improvement of the heap leaching process planned for Ranger Mine is of immense economic importance to Energy Resources of Australia Ltd. This project will benefit Australia, including Indigenous Australians who represent 18 per cent of the workforce at Ranger, through other flow-on effects, such as job creation in the Alligator Rivers regional economy and wealth generation to traditional landowners and all Australia ....Biogeochemical controls on efficacy and sustainability of uranium heap leaching. Improvement of the heap leaching process planned for Ranger Mine is of immense economic importance to Energy Resources of Australia Ltd. This project will benefit Australia, including Indigenous Australians who represent 18 per cent of the workforce at Ranger, through other flow-on effects, such as job creation in the Alligator Rivers regional economy and wealth generation to traditional landowners and all Australians through increased royalty payments to the Australian Government. This project will also provide insights into minimising the impacts arising from contaminant mobilisation in acid sulphate environments, such as acid mine drainage. As such, this project will greatly benefit the economic strength, health and environmental integrity of Australia.Read moreRead less
Enhanced recovery and concentration of cenospheres from fly ash. The purpose of this project is to investigate the recovery of valuable particles, referred to as cenospheres, from the fly ash waste of coal fired power stations. An understanding of the complex gravitational settling behaviour of fly ash suspensions in inclined channels will lead to a new technology for recovering and concentrating the particles.
Short- and long-term mitigation strategies for acid and metalliferous drainage control from iron ore mine wastes. Acid and metalliferous drainage from mine wastes, caused by oxidation of sulfide minerals, particularly pyrite, are a critical environmental issue worldwide. Although options to retard sulfide oxidation exist, including encapsulation methods, chemical additives and inhibition of iron-oxidising bacteria, these suffer from long-term instability. The project aims to investigate mechanis ....Short- and long-term mitigation strategies for acid and metalliferous drainage control from iron ore mine wastes. Acid and metalliferous drainage from mine wastes, caused by oxidation of sulfide minerals, particularly pyrite, are a critical environmental issue worldwide. Although options to retard sulfide oxidation exist, including encapsulation methods, chemical additives and inhibition of iron-oxidising bacteria, these suffer from long-term instability. The project aims to investigate mechanistic approaches, using readily available mineralogical materials, to provide passivating conditions resulting in slowed oxidation rates. The project’s focus is on treatments for wastes from iron ore deposits which are of high economic significance to Australia. The outcome aims to be a treatment ‘pathway’ enabling practical waste rock treatment over the acid forming time-profile.Read moreRead less
Long-term acid rock and tailings drainage mitigation through source control. Effective long-term management of acid rock drainage (ARD) from sulfidic mine wastes in current, exhausted and legacy mine sites is of critical importance to communities and for sustainable mining. An optimised geochemical and microbial multi-barrier approach to long-term reduction of ARD to environmentally acceptable rates will be developed by this project.
Evolutionary Design for Ore Processing Plants. This project will investigate the use of evolutionary algorithms (EAs) in the design of ore processing plants. Ore processing is a major activity in the Australian mining industry, and a significant source of export dollars. Prior work has demonstrated that EAs can out-perform previous manual and automated design techniques for individual processing units. This project will apply EAs to the design of whole flowsheets containing arbitrary combination ....Evolutionary Design for Ore Processing Plants. This project will investigate the use of evolutionary algorithms (EAs) in the design of ore processing plants. Ore processing is a major activity in the Australian mining industry, and a significant source of export dollars. Prior work has demonstrated that EAs can out-perform previous manual and automated design techniques for individual processing units. This project will apply EAs to the design of whole flowsheets containing arbitrary combinations of different types of units. The complexity of typical flowsheet layouts will require new algorithms to discover improved designs in practical time, so parallel hardware, and new parallel EAs, will be utilised.
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Gravity Separation and Desliming of Fine Particles. This project will be of benefit to the Australian coal and mineral processing industries, worth tens of billions of dollars to the Australian economy each year. The objective is to establish an innovative system of cascading Reflux Classifiers for achieving both gravity separation and desliming of fine particles. Presently millions of tonnes of fine coal exist in tailings dams, unrecoverable by existing technologies such as flotation. This rese ....Gravity Separation and Desliming of Fine Particles. This project will be of benefit to the Australian coal and mineral processing industries, worth tens of billions of dollars to the Australian economy each year. The objective is to establish an innovative system of cascading Reflux Classifiers for achieving both gravity separation and desliming of fine particles. Presently millions of tonnes of fine coal exist in tailings dams, unrecoverable by existing technologies such as flotation. This research will provide options for the recovery of this resource, making the remediation of these sites economically viable. The project will also support the education and training of researchers in this field of importance to Australia’s future.Read moreRead less
Improving the processing of low quality iron ores by the modification of particle interactions. This project is aimed at modifying particle interactions to selectively stabilise or destabilise minerals during grinding and subsequent separation of low quality iron ores. The project will lead to improving grinding energy efficiency, increasing iron mineral production and reducing the impact of iron ore tailings on health and environment.
Enhancing Direct Cu Recovery through Increased Gas Processing Understanding. This project aims to investigate mechanisms of copper loss during smelting and find new ways to reduce the loss. Smelting, which produces copper matte product and slag tailings, is an important step of the copper-making process from copper sulphides. The loss of copper to slag can be as high as 12 per cent. The project aims to create new knowledge about copper loss by matte droplets floated with gas bubbles generated by ....Enhancing Direct Cu Recovery through Increased Gas Processing Understanding. This project aims to investigate mechanisms of copper loss during smelting and find new ways to reduce the loss. Smelting, which produces copper matte product and slag tailings, is an important step of the copper-making process from copper sulphides. The loss of copper to slag can be as high as 12 per cent. The project aims to create new knowledge about copper loss by matte droplets floated with gas bubbles generated by chemical reactions to the slag phase. The outcomes are intended to enable copper smelters to maximise direct copper recovery, reduce copper production costs and increase the productivity of the smelting process.Read moreRead less
A Framework for Understanding and Applying the Reflux Classifier in Fine Particle Beneficiation. The Reflux Classifier is a novel Australian technology that is re-defining what is possible in the field of gravity separation across the mining industry. This new research aims to focus on a critical gap in the knowledge, concerned with the powerful internal synergies that exist between the particle-fluid hydrodynamics of the lower fluidised bed and the upper system of inclined channels. The technol ....A Framework for Understanding and Applying the Reflux Classifier in Fine Particle Beneficiation. The Reflux Classifier is a novel Australian technology that is re-defining what is possible in the field of gravity separation across the mining industry. This new research aims to focus on a critical gap in the knowledge, concerned with the powerful internal synergies that exist between the particle-fluid hydrodynamics of the lower fluidised bed and the upper system of inclined channels. The technology has already delivered nearly $1 billion in economic benefit, solving previously intractable problems. Through an experimental and theoretical study a new framework for understanding and applying this technology in fine particle beneficiation across an increasingly diverse range of applications is intended to be established.Read moreRead less