Modelling and Characterisation of Stringy/Compressible Bulk Materials. The development of new technologies in the treatment of waste products, recycling of green and paper waste and the use of biomass fuels has created the need for a new approach in the handling of non-conventional bulk solids. The Mohr-Coulomb models that are traditionally used to characterise granular materials do not adequately describe the nature of these stringy and compressible bulk solids. This project will address this ....Modelling and Characterisation of Stringy/Compressible Bulk Materials. The development of new technologies in the treatment of waste products, recycling of green and paper waste and the use of biomass fuels has created the need for a new approach in the handling of non-conventional bulk solids. The Mohr-Coulomb models that are traditionally used to characterise granular materials do not adequately describe the nature of these stringy and compressible bulk solids. This project will address this problem by developing new constitutive models and characterisation techniques for this class of materials. This work will provide the necessary tools to address a series of pressing problems in several emerging technologies.Read moreRead less
Particle transport in turbulent non-Newtonian suspensions in self formed open channels. An improved understanding of the fundamentals of channel formation and the ability of channels to transport solids in either a natural or created environment will be of benefit to industries employing open channels (or flumes) or stacked tailings as part of their processes. This will lead to better design and operation with reduced water use and reduced volume of waste disposal. This research will build the ....Particle transport in turbulent non-Newtonian suspensions in self formed open channels. An improved understanding of the fundamentals of channel formation and the ability of channels to transport solids in either a natural or created environment will be of benefit to industries employing open channels (or flumes) or stacked tailings as part of their processes. This will lead to better design and operation with reduced water use and reduced volume of waste disposal. This research will build the scientific foundation for the design tools to more accurately predict the behaviour of tailings stacks. The mining industry will benefit from the improved management of their tailings disposal regimes, reduced water usage, lowered cost of disposal and reduced impact on the environment.Read moreRead less
Energy Dissipation and Nanoscale Processes at Moving Contact Lines. The dynamic process of liquids wetting and dewetting, as moving contact lines pass over solid surfaces is central to many industrial operations and natural phenomena. Contact line motion plays a key role in micro and nanofluidics, the foundation of an emergent technology called process intensification, where large industrial processes can be reduced to Lilliputian in size. Substantial energy reduction and other benefits are exp ....Energy Dissipation and Nanoscale Processes at Moving Contact Lines. The dynamic process of liquids wetting and dewetting, as moving contact lines pass over solid surfaces is central to many industrial operations and natural phenomena. Contact line motion plays a key role in micro and nanofluidics, the foundation of an emergent technology called process intensification, where large industrial processes can be reduced to Lilliputian in size. Substantial energy reduction and other benefits are expected from this project, including the transformation of coarse particle flotation. Young PhD scientists and engineers will be educated in a rich research environment, with strong international research collaboration in areas of national priority.Read moreRead less
Modelling and Optimisation of Belt Conveyor Systems. Belt conveyors are the arteries of Australia's heavy industries. Their efficiency and cost are critical to the productivity of our major export markets. A current trend in this area is the introduction of high-speed and long distance conveying. This has placed tremendous pressure on the current design standards which are in drastic need of re-evaluation. This project will address these deficiencies and build a strong foundation for future conv ....Modelling and Optimisation of Belt Conveyor Systems. Belt conveyors are the arteries of Australia's heavy industries. Their efficiency and cost are critical to the productivity of our major export markets. A current trend in this area is the introduction of high-speed and long distance conveying. This has placed tremendous pressure on the current design standards which are in drastic need of re-evaluation. This project will address these deficiencies and build a strong foundation for future conveyor design. This will be achieved by developing rigorous mechanical models for conveyor mechanics and the application of state-of-the-art optimisation methods based on Darwinian natural selection. This will lead to significant improvements in the efficiency and running costs of belt conveyor systems.Read moreRead less
Passive Control of Dust Emissions from Belt Conveyor Systems. Belt conveyor systems are employed extensively to transport bulk materials in a great many industries, particularly those associated with mining and mineral processing. Belt conveyor installations are becoming longer and belt speeds significantly faster, resulting in increased dust emissions. An estimated 16 billion litres of water per annum is used by the Australian Black Coal Industry alone on dust suppression. This project will dev ....Passive Control of Dust Emissions from Belt Conveyor Systems. Belt conveyor systems are employed extensively to transport bulk materials in a great many industries, particularly those associated with mining and mineral processing. Belt conveyor installations are becoming longer and belt speeds significantly faster, resulting in increased dust emissions. An estimated 16 billion litres of water per annum is used by the Australian Black Coal Industry alone on dust suppression. This project will develop passive dust control technology, requiring no external energy or suppressants. This will be achieved through the development of numerical methods verified by rigorous experimental work. This will lead to significant cost savings, improved employee health and safety and reduced environmental impact.Read moreRead less
Analytical, Numerical and Testing Procedures for Improved Design and Performance of Bulk Solids Systems. Mining and minerals production is Australia's most important export industry. Despite the global financial crisis, the Australian Bureau of Agriculture and Resources Economics (Australian Commodities, December Quarter 2008) has forecast that earnings from Australia's energy and minerals exports will increase by 37% during 2008-09 to A$160 billion. Bulk materials handling operations constitute ....Analytical, Numerical and Testing Procedures for Improved Design and Performance of Bulk Solids Systems. Mining and minerals production is Australia's most important export industry. Despite the global financial crisis, the Australian Bureau of Agriculture and Resources Economics (Australian Commodities, December Quarter 2008) has forecast that earnings from Australia's energy and minerals exports will increase by 37% during 2008-09 to A$160 billion. Bulk materials handling operations constitute a major component of the minerals production and transportation costs. Through the research conducted in this project, greater efficiencies with reduced operating costs will be achieved while, at the same time, meeting the stringent environmental controls in accordance with the National priority goal of 'An Environmentally Sustainable Australia'.Read moreRead less
WAVELET-BASED MODELLING AND MODEL PREDICTIVE CONTROL OF COMPLEX MULTIDIMENSIONAL CRYSTALLISATION PROCESSES. The results of this project will directly contribute to a better understanding of crystallisation which is an important unit operation to achieve high purity separations. Many Australian industries for example, mineral processing, sugar processing, pharmaceuticals, etc will benefit from the results in order to enhance optimal operation and control to ensure globally competitive production ....WAVELET-BASED MODELLING AND MODEL PREDICTIVE CONTROL OF COMPLEX MULTIDIMENSIONAL CRYSTALLISATION PROCESSES. The results of this project will directly contribute to a better understanding of crystallisation which is an important unit operation to achieve high purity separations. Many Australian industries for example, mineral processing, sugar processing, pharmaceuticals, etc will benefit from the results in order to enhance optimal operation and control to ensure globally competitive production which is on time, minimize wastes and raw materials and inventories. The leading edge results will increase the contributions of these industries to the Australian economy and our global competitiveness necessary to maintain our culture and the beauty of our environment. Read moreRead less
The development of particle-depleted regions in dense suspensions of neutrally buoyant particles. We aim to measure the spatial variation of fluid speed and particle speed, and of particle concentration, across and along a pipe into which has been introduced a mixture of said particles and fluid. This problem has significance in mechanical and chemical engineering wherever particle/fluid mixtures are flowing. The expected outcomes are recognition of a major contribution to world research, as w ....The development of particle-depleted regions in dense suspensions of neutrally buoyant particles. We aim to measure the spatial variation of fluid speed and particle speed, and of particle concentration, across and along a pipe into which has been introduced a mixture of said particles and fluid. This problem has significance in mechanical and chemical engineering wherever particle/fluid mixtures are flowing. The expected outcomes are recognition of a major contribution to world research, as well as technological applications; one that motivates us is the blood shear in the bearings of a revolutionary Australian blood pump for cardiac assist that avoids both pivots and magnetic suspension for the single moving part.Read moreRead less
Effect of Saline Water on Flotation Processes. The Australian mineral and coal industry is valued at $40 billion in export income per year. This significant component of the Australian economy will benefit from this research into the increased use of highly saline water to improve coal and mineral flotation recovery. The project will keep Australia at the leading edge of flotation research, research training and development for the coal and mineral industry. With direct relevance to the National ....Effect of Saline Water on Flotation Processes. The Australian mineral and coal industry is valued at $40 billion in export income per year. This significant component of the Australian economy will benefit from this research into the increased use of highly saline water to improve coal and mineral flotation recovery. The project will keep Australia at the leading edge of flotation research, research training and development for the coal and mineral industry. With direct relevance to the National Research Priorities: Water - a Critical Resource, this project will make contributions to the development of a more environmentally sustainable coal and mineral processing industry.Read moreRead less
New process for mineral flotation. Flotation is an important process in the minerals industry, which underpins Australia's prosperity. Ore is first finely ground and suspended in water. Finer grinds need more energy. The energy used in grinding in Australia is 14 percent of the national electricity consumption. This project will lead to a flotation technology that can successfully process much coarser particles than current devices, with large savings in grinding energy, greenhouse gas emissions ....New process for mineral flotation. Flotation is an important process in the minerals industry, which underpins Australia's prosperity. Ore is first finely ground and suspended in water. Finer grinds need more energy. The energy used in grinding in Australia is 14 percent of the national electricity consumption. This project will lead to a flotation technology that can successfully process much coarser particles than current devices, with large savings in grinding energy, greenhouse gas emissions and water consumption. A case study of a large mine shows that, by increasing the initial grinding size from 100 µm to 500 µm, the new technology could cut grinding energy by 45 percent, the carbon dioxide emissions by the same amount, and the water consumption by a factor of five.Read moreRead less