Understanding of structure development in drying droplets through the stickiness paradigm. The aims of this research are to develop a new model for multicomponent droplet drying. This model will provide predictions of conditions where composition variation exists in the drying particles. Validation of the model will be made using a novel instrument to measure the in-situ development of surface stickiness during drying. Stickiness is an important issue encountered during drying and handling of so ....Understanding of structure development in drying droplets through the stickiness paradigm. The aims of this research are to develop a new model for multicomponent droplet drying. This model will provide predictions of conditions where composition variation exists in the drying particles. Validation of the model will be made using a novel instrument to measure the in-situ development of surface stickiness during drying. Stickiness is an important issue encountered during drying and handling of some key food and consumer materials. Currently, there is no technique to measure the evolution of stickiness during drying. Key outputs will include the model, the instrument, and the development of efficient methods to generate the multicomponent data.Read moreRead less
Wet granule mechanics and their influence on agglomeration behaviour and granulation processes. Granulation is a widely-used particle size enlargement process performed by spraying a liquid binder onto an agitated powder mass. It is currently impossible to quantitatively predict granule growth behaviour in terms of the fundamental properties of the particles and binder. This project will measure and model the deformation of granules and the strength of bonds formed between them and use this info ....Wet granule mechanics and their influence on agglomeration behaviour and granulation processes. Granulation is a widely-used particle size enlargement process performed by spraying a liquid binder onto an agitated powder mass. It is currently impossible to quantitatively predict granule growth behaviour in terms of the fundamental properties of the particles and binder. This project will measure and model the deformation of granules and the strength of bonds formed between them and use this information to predict their growth behaviour. Special attention will be given to the effects of strain-rate and particle morphology in granulation mechanics. Improvements in granulation technology will be of great benefit to food, pharmaceutical, agricultural, explosives and mining industries and opens the way to 'designer granulation' for special purposes.Read moreRead less
Microfluidic Studies of Stimuli-Responsive Emulsions. Breakthrough 'stimuli-responsive interface technology' has been developed in Australia to allow better control over emulsions, which are oil-in-water mixtures used widely in everyday products such as medicines. This project will increase our understanding of this new technology, by examining how the chemistry of the molecules at the interface interacts with fluid behaviour when the emulsion is made. The research will employ miniature lab-on-a ....Microfluidic Studies of Stimuli-Responsive Emulsions. Breakthrough 'stimuli-responsive interface technology' has been developed in Australia to allow better control over emulsions, which are oil-in-water mixtures used widely in everyday products such as medicines. This project will increase our understanding of this new technology, by examining how the chemistry of the molecules at the interface interacts with fluid behaviour when the emulsion is made. The research will employ miniature lab-on-a-chip systems, to give engineers and scientists design rules for this new technology, opening the way to new products that will improve our everyday lives. One immediate product to be researched is 'precision' double emulsions, which show unique properties for the delivery of chemotherapy medicines.Read moreRead less
Design of granule microstructure in fluidised bed granulation: Modelling & experimental realisation. Production of granules with engineered microstructure is a common industrial problem. This project focuses on understanding how to control the microstructure of granules - including size, porosity, composition - produced by fluidised bed granulation by developing systematic, science based design rules. Designer granules can be used to develop and fast-track the development of innovative microstru ....Design of granule microstructure in fluidised bed granulation: Modelling & experimental realisation. Production of granules with engineered microstructure is a common industrial problem. This project focuses on understanding how to control the microstructure of granules - including size, porosity, composition - produced by fluidised bed granulation by developing systematic, science based design rules. Designer granules can be used to develop and fast-track the development of innovative microstructured products for niche markets and the next generation of high-value agricultural, food and pharmaceutical industries. This unique project clearly contributes to the National Research Priority of 'Frontier Technologies' and will further enhance Australia's world-class excellence in both powder fluidisation and granulation research.Read moreRead less
Self-assembly of gelling biopolymer particles. Biopolymers provide a renewable source of structuring agents for a variety of potential uses in food, pharmaceutical and other applications that require bio-compatibility. Swollen biopolymer particles of sub-millimetre size are particularly useful as they combine macroscopic structure formation with an ability to flow and a desirable soft solid texture. Two limitations to the current utilisation of biopolymer particles are that they either cannot be ....Self-assembly of gelling biopolymer particles. Biopolymers provide a renewable source of structuring agents for a variety of potential uses in food, pharmaceutical and other applications that require bio-compatibility. Swollen biopolymer particles of sub-millimetre size are particularly useful as they combine macroscopic structure formation with an ability to flow and a desirable soft solid texture. Two limitations to the current utilisation of biopolymer particles are that they either cannot be predictably produced direct from a dried form, or if they are (e.g. cooked starch granules), there is a lack of scientific understanding that limits use of natural sources without subsequent chemical modification. This project will provide the science & technology to overcome these limitations.Read moreRead less
Optimising Fouling Control in Membrane Bioreactors. Membrane bioreactors (MBR) are growing in importance for wastewater treatment because they offer an alternative for producing higher effluent quality wastewater within a more compact space compared to conventional processes. However, due to the pumping and bubbling used to keep the membranes clear of foulants resulting from the biological processes in MBR's, controlling fouling incurs significant energy usage and costs. The proposal aims to red ....Optimising Fouling Control in Membrane Bioreactors. Membrane bioreactors (MBR) are growing in importance for wastewater treatment because they offer an alternative for producing higher effluent quality wastewater within a more compact space compared to conventional processes. However, due to the pumping and bubbling used to keep the membranes clear of foulants resulting from the biological processes in MBR's, controlling fouling incurs significant energy usage and costs. The proposal aims to reduce the costs of fouling control by understanding the optimal conditions to remove these depositions and improve the design of MBR modules, operating conditions and shear delivery in the membrane system.Read moreRead less
Macromolecular Fouling in Membrane Bioreactors. As the demands for domestic and industrial water increasing in Australia and overseas, membrane bioreactors (MBR) offer an alternative for producing higher effluent quality wastewater compared to conventional processes. However, aeration costs used to remove fouling deposits (which reduce the operating performance) need to be further minimised. The proposal aims to study fundamental mechanisms involve in the deposition of foulant components by usin ....Macromolecular Fouling in Membrane Bioreactors. As the demands for domestic and industrial water increasing in Australia and overseas, membrane bioreactors (MBR) offer an alternative for producing higher effluent quality wastewater compared to conventional processes. However, aeration costs used to remove fouling deposits (which reduce the operating performance) need to be further minimised. The proposal aims to study fundamental mechanisms involve in the deposition of foulant components by using model systems of polysaccharides, proteins and microbial cells and comparing these with real MBR systems. The effect of bubbling varied gas compositions (air/H2S ratios) a novel approach in this study will be investigated to prevent or remove foulants in MBR systems. Read moreRead less
Forces in high salt concentrations: from mineral processing to proteins. The outcomes of this program will have significant contributions to the fundamental understanding of colloidal science, the study of particle suspensions. This project will help answer longstanding questions in the food, pharmaceutical and mining industries, two of which are primary industries for Australia. In these industries, innovative solutions can substantially improve productivity, increasing export potential and re ....Forces in high salt concentrations: from mineral processing to proteins. The outcomes of this program will have significant contributions to the fundamental understanding of colloidal science, the study of particle suspensions. This project will help answer longstanding questions in the food, pharmaceutical and mining industries, two of which are primary industries for Australia. In these industries, innovative solutions can substantially improve productivity, increasing export potential and reducing the environmental impact. The outcomes of this work, in the form of high impact papers and conference presentations, will continue to build and enhance Australia's international research reputation and in time engage industries to transfer and commercialization of the present fundamental study.Read moreRead less
Mathematical and mechanical modeling of nano particulate flow. Nano particulates are the basis for many new technologies, including coatings in the electronics industry, composite materials and medical and pharmaceutical applications. Worldwide industrial competition is increasingly determined by our capacity to handle such highly cohesive materials, and to exploit their novel physical, chemical and mechanical characteristics. Devising handling mechanisms and understanding nano particulate flows ....Mathematical and mechanical modeling of nano particulate flow. Nano particulates are the basis for many new technologies, including coatings in the electronics industry, composite materials and medical and pharmaceutical applications. Worldwide industrial competition is increasingly determined by our capacity to handle such highly cohesive materials, and to exploit their novel physical, chemical and mechanical characteristics. Devising handling mechanisms and understanding nano particulate flows depends on formulating accurate mathematical models which reflect the correct underlying physics. This APF proposal will utilise advanced continuum mechanics to develop the correct underlying conceptual ideas to resolve fundamental nanomechanical particulate flows, which will lead to the next generation of engineering tools.
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Assessment and Prediction of Particle Breakage under Cyclic Loading. Every year, transport industries spend millions of dollars to maintain existing tracks suffering excessive settlement due to heavy traffic. In railways, differential settlement and track fouling are mostly due to ballast breakage. Frequent maintenance requires large amounts of quarried ballast causing environmental degradation. Simulation of particle breakage subject to cyclic loading is pioneering fundamental research that wi ....Assessment and Prediction of Particle Breakage under Cyclic Loading. Every year, transport industries spend millions of dollars to maintain existing tracks suffering excessive settlement due to heavy traffic. In railways, differential settlement and track fouling are mostly due to ballast breakage. Frequent maintenance requires large amounts of quarried ballast causing environmental degradation. Simulation of particle breakage subject to cyclic loading is pioneering fundamental research that will have significant impact on the design and maintenance of future rail and road networks. A full understanding of the breakage mechanisms of aggregates will lead to innovative techniques in design and construction, including faster trains carrying heavier loads with reduced maintenance costs.Read moreRead less