Reducing wear on rotary coal pulverisers. The aim of this project is to develop an understanding of the small-scale flows and particle breakage required to permit optimised redesign of the attrition stage of the 36 coal pulverisers at Gladstone Power Station, which, because of erosive wear, currently have a maintenance budget of $4M per year. CFD-DEM simulation of the air and particle flows will be used to determine particle flow patterns, particle-particle and particle-wall impact energies. Thi ....Reducing wear on rotary coal pulverisers. The aim of this project is to develop an understanding of the small-scale flows and particle breakage required to permit optimised redesign of the attrition stage of the 36 coal pulverisers at Gladstone Power Station, which, because of erosive wear, currently have a maintenance budget of $4M per year. CFD-DEM simulation of the air and particle flows will be used to determine particle flow patterns, particle-particle and particle-wall impact energies. This information will be input to comminution and wear models to predict pulveriser performance and wear patterns. Simulation results will be validated using measurements from scale visualisation and working models.Read moreRead less
Investigations of Surface-Gas Reactions and Mixing in Micro-combustion. This proposal is closely aligned with the third national research priority of 'Frontier Technologies and Transforming Australian Industries'. Micro-power generation is one such technology that will provide power for a broad array of current and future devices ranging from micro-electronics to micro-propulsion systems. Studies conducted here will lead to enhanced mixing and flame stability in micro-combustors. This will place ....Investigations of Surface-Gas Reactions and Mixing in Micro-combustion. This proposal is closely aligned with the third national research priority of 'Frontier Technologies and Transforming Australian Industries'. Micro-power generation is one such technology that will provide power for a broad array of current and future devices ranging from micro-electronics to micro-propulsion systems. Studies conducted here will lead to enhanced mixing and flame stability in micro-combustors. This will place Australia at the leading edge of international research in this field and enables technological advancement in the emerging micro-power generation industry. Another benefit of this research is the training of graduates who will most likely lead future developments in micro-combustion engineering.Read moreRead less
Mathematical and mechanical models in nano-engineering and nanomedicine. The major environmental problems generated from global warming and the major human health problems, like cancer and diabetes, if they are to be solved at all, will most likely be resolved making use of advances in nanobiotechnology. This proposal will position Australia as a leader in the modelling of nanodevices such as gigahertz oscillators, nano-electromagnets, nanosensors, nanosyringes and nanoporous media suitable for ....Mathematical and mechanical models in nano-engineering and nanomedicine. The major environmental problems generated from global warming and the major human health problems, like cancer and diabetes, if they are to be solved at all, will most likely be resolved making use of advances in nanobiotechnology. This proposal will position Australia as a leader in the modelling of nanodevices such as gigahertz oscillators, nano-electromagnets, nanosensors, nanosyringes and nanoporous media suitable for hydrogen storage and gas separation, which will lead to new technologies and commercial spin-offs that will be of major benefit to this country. The applicants will develop a range of topics in nano-engineering and nanomedicine, training a team that will provide the next generation of researchers in these vital areas.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
Microfluidics with core-shell beads: handling liquids like solids. Reducing waste of consumables in chemical reactions promises to solve environmental problems as well as enable novel applications in space. This project aims to establish a revolutionary fluid handling technology that lowers waste in the labs and in satellites. The project deciphers the fundamental physics behind our recent discovery of encapsulating a tiny liquid content in a solid shell, allowing for handling liquid samples lik ....Microfluidics with core-shell beads: handling liquids like solids. Reducing waste of consumables in chemical reactions promises to solve environmental problems as well as enable novel applications in space. This project aims to establish a revolutionary fluid handling technology that lowers waste in the labs and in satellites. The project deciphers the fundamental physics behind our recent discovery of encapsulating a tiny liquid content in a solid shell, allowing for handling liquid samples like solid particles. Examples of the benefit of this project are more precise detection of bacteria on earth and compact reactors in space. The research outcomes are instrumental for promoting a clean environment, good health, and creating new business opportunities, particularly in space industry, for Australians.Read moreRead less
Simulation studies of stick and slip at the solid-liquid boundary. Successful practical application of computational rheology to polymer processing, to adhesion and to the understanding of lubrication at very high shear rates, among other problems, needs both an adequate description of the fluid - a constitutive equation - and the prescription of proper boundary conditions.The constitutive model problem has been extensively studied, and this proposal seeks to address the question of proper bound ....Simulation studies of stick and slip at the solid-liquid boundary. Successful practical application of computational rheology to polymer processing, to adhesion and to the understanding of lubrication at very high shear rates, among other problems, needs both an adequate description of the fluid - a constitutive equation - and the prescription of proper boundary conditions.The constitutive model problem has been extensively studied, and this proposal seeks to address the question of proper boundary conditions for viscoelastic flow at interfaces between a flowing fluid and a solid surface. This vital area has not been thoroughly studied theoretically and computationally, and we seek to clarify the mechanisms by using molecular dynamics.Read moreRead less
Blue energy harvesting and storage technology for wearable electronics. This project aims to develop new self-charging power devices that can harvest and store body energy generated during body motions, and power smart and implantable medical electronics. The project will develop new Piezo-supercapacitors by designing new electrode materials and cell designs. The charge storage and transport kinetics will be uncovered using advanced in-situ characterisation techniques and modern simulation metho ....Blue energy harvesting and storage technology for wearable electronics. This project aims to develop new self-charging power devices that can harvest and store body energy generated during body motions, and power smart and implantable medical electronics. The project will develop new Piezo-supercapacitors by designing new electrode materials and cell designs. The charge storage and transport kinetics will be uncovered using advanced in-situ characterisation techniques and modern simulation methods. The project expects to generate new knowledge in blue energy harvesting and storage systems, training for young scientists, and generate intellectual property with potential commercialised products to be used in implantable devices, placing Australia at the forefront of new technology.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL190100126
Funder
Australian Research Council
Funding Amount
$3,508,332.00
Summary
Carbon-based Metal-free Catalysis: An Emerging Field with Great Potential. Catalysis is a major field and noble metal catalysts play a key role in renewable energy technologies, chemical and environmental processes. However, the scarcity and high cost of noble metals have caused sustainability problems. Since this Laureate applicant discovered the first metal-free carbon catalyst for energy, carbon-based metal-free catalysis rapidly became a promising emerging field, but many scientific question ....Carbon-based Metal-free Catalysis: An Emerging Field with Great Potential. Catalysis is a major field and noble metal catalysts play a key role in renewable energy technologies, chemical and environmental processes. However, the scarcity and high cost of noble metals have caused sustainability problems. Since this Laureate applicant discovered the first metal-free carbon catalyst for energy, carbon-based metal-free catalysis rapidly became a promising emerging field, but many scientific questions remain unsolved. In this program, innovative approaches will be developed to produce never-before-realized catalytic active centres of a controlled location and structure for mechanistic understanding to enable future breakthroughs in metal-free catalysis and a broad range of technology with far ranging applications.Read moreRead less
Metal-free catalysts for clean production of energy and hydrogen peroxide. This project aims to create novel metal-free carbon-based catalysts to replace the scarce and expensive noble metal catalysts. Noble metal catalysts are needed for clean production of electricity by fuel cells or hydrogen peroxide from hydrogen and oxygen gases. A combined theoretical and experimental approach will be developed for controlled synthesis of heteroatom-doped carbon catalysts and to improve our understanding ....Metal-free catalysts for clean production of energy and hydrogen peroxide. This project aims to create novel metal-free carbon-based catalysts to replace the scarce and expensive noble metal catalysts. Noble metal catalysts are needed for clean production of electricity by fuel cells or hydrogen peroxide from hydrogen and oxygen gases. A combined theoretical and experimental approach will be developed for controlled synthesis of heteroatom-doped carbon catalysts and to improve our understanding of the catalytic mechanism and structure-activity relationship for the novel carbon catalysts. The project is expected to lay fundamental groundwork for a new paradigm in carbon-based catalysts that should be of considerable significance for energy and chemical production in a clean and cost effective way.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668467
Funder
Australian Research Council
Funding Amount
$620,000.00
Summary
A large memory, high performance computing system for the ac3 Research Consortium. The installation of this new supercomputing facility is an important addition to the nation's foundation research infrastructure, and a further key system in the national computational grid. Of particular importance to research groups in NSW is the much needed boost in computational research and research training capacity that it will provide, enabling world leading research teams to continue their ground breakin ....A large memory, high performance computing system for the ac3 Research Consortium. The installation of this new supercomputing facility is an important addition to the nation's foundation research infrastructure, and a further key system in the national computational grid. Of particular importance to research groups in NSW is the much needed boost in computational research and research training capacity that it will provide, enabling world leading research teams to continue their ground breaking work in what is an increasingly competitive international environment. Much of the research to be supported lies in areas of national priority, including frontier technologies and Australian environmental sustainability.Read moreRead less