Special Research Initiatives - Grant ID: SR0354672
Funder
Australian Research Council
Funding Amount
$20,000.00
Summary
ARC Network in Mineral Processing, Extraction and Refining. The Network aims to develop long-term, collaborative research and training links between world-class researchers and research centres in mineral processing, extraction and refining. The goal is to ensure that Australia's major export industry is sustainable, environmentally acceptable and technically at the cutting edge.
Networking key researchers with complementary skills and expertise will enhance research quality, encourage a hol ....ARC Network in Mineral Processing, Extraction and Refining. The Network aims to develop long-term, collaborative research and training links between world-class researchers and research centres in mineral processing, extraction and refining. The goal is to ensure that Australia's major export industry is sustainable, environmentally acceptable and technically at the cutting edge.
Networking key researchers with complementary skills and expertise will enhance research quality, encourage a holistic approach to problem solving and support researchers to tackle big challenges, beyond their usual scope, that will transform the industry. The outcomes will be greater international competitiveness, better resource utilisation, and the incubation of new research leaders, enhancing Australia's minerals R&D infrastructure.Read moreRead less
Environmental stability of nanoscale materials for catalysis and sensing. After two decades of research, the first wave of 'nanotechnology' consumer products are entering the market, and large quantities of nanoparticles (less than millionth of a centimetre in size) are now being produced annually. However, before any new product can be manufactured, we need to know how stable engineered nanomaterials are before we bring them into our home, or we find them (unintentionally) free in our waterways ....Environmental stability of nanoscale materials for catalysis and sensing. After two decades of research, the first wave of 'nanotechnology' consumer products are entering the market, and large quantities of nanoparticles (less than millionth of a centimetre in size) are now being produced annually. However, before any new product can be manufactured, we need to know how stable engineered nanomaterials are before we bring them into our home, or we find them (unintentionally) free in our waterways and other ecosystems. For the first time, this project uses high performance supercomputing and advanced theoretical modelling to predict the stability of nanomaterials under a wide range of environmental conditions, to help safe guard Australia from potential 'nano-hazards' associated with these tiny pieces of matter.Read moreRead less
Low emission, Gas Turbine Air Compressor (GTAC) demonstrator. Compressed air production consumes a significant portion of electricity generated world-wide. The fragility of power infrastructure in many developed countries, and the growing Chinese economy, has created very large markets for compressed air plants that run off Diesel and natural gas fuels. Australia's reliance on coal introduces the added greenhouse incentive of reduced electricity use.
This project will demonstrate a novel air ....Low emission, Gas Turbine Air Compressor (GTAC) demonstrator. Compressed air production consumes a significant portion of electricity generated world-wide. The fragility of power infrastructure in many developed countries, and the growing Chinese economy, has created very large markets for compressed air plants that run off Diesel and natural gas fuels. Australia's reliance on coal introduces the added greenhouse incentive of reduced electricity use.
This project will demonstrate a novel air compressor concept that features a natural gas fuelled micro-gas turbine. This device is expected to have comparable thermal efficiency to other air compressors, but with very significantly reduced greenhouse and overall emissions, much quieter operation, lower cost and increased device compactness.
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Generation of Ultra-Clean Fuel from Victorian Brown Coal and Its Oxygen-Enriched Combustion Characteristics. Completion of this project can significantly contribute to the national priority of developing alternative energy technologies and ecologically sustainable power generation systems, as well as provide solutions to reduce and capture greenhouse gas emissions during Victorian brown coal firing. Improvements in the quality of Victorian brown coal and its value in national/international trad ....Generation of Ultra-Clean Fuel from Victorian Brown Coal and Its Oxygen-Enriched Combustion Characteristics. Completion of this project can significantly contribute to the national priority of developing alternative energy technologies and ecologically sustainable power generation systems, as well as provide solutions to reduce and capture greenhouse gas emissions during Victorian brown coal firing. Improvements in the quality of Victorian brown coal and its value in national/international trade markets can be achieved through the generation of ultra-clean fuel from coal. Substitution of ultra-clean fuel for Victorian brown coal in energy industries would greatly improve the competitiveness of the Victorian economy in a carbon-constrained future, and ensure power generation near-zero emissions.Read moreRead less
Development of Topological Optimisation Techniques for the Conceptual Design of Multi-storey Buildings. The building design process often begins with a case based preliminary design which derives its main parameters and features from a number of existing buildings of similar dimensions and functionality. This project aims to develop a design tool which incorporates two topological optimisation techniques in the conceptual design of multi-storey buildings. This design tool will enable inefficient ....Development of Topological Optimisation Techniques for the Conceptual Design of Multi-storey Buildings. The building design process often begins with a case based preliminary design which derives its main parameters and features from a number of existing buildings of similar dimensions and functionality. This project aims to develop a design tool which incorporates two topological optimisation techniques in the conceptual design of multi-storey buildings. This design tool will enable inefficient materials to be automatically removed from the design, thus producing a structurally efficient building system. At the same time, the new topologies generated by these optimisation techniques can be used by the designer to create innovative forms and layouts for the building.Read moreRead less
Efficient and Robust Bi-directional Evolutionary Structural Optimisation Method for Large-scale Three-dimensional Topological Design. Structural optimisation is a process of searching for the best shape and topology of an engineering structure which will consume the least amount of material or energy. This project aims to further investigate the Bi-directional Structural Optimisation (BESO) method which has recently been proposed by the applicant's team. New algorithms will be developed to subst ....Efficient and Robust Bi-directional Evolutionary Structural Optimisation Method for Large-scale Three-dimensional Topological Design. Structural optimisation is a process of searching for the best shape and topology of an engineering structure which will consume the least amount of material or energy. This project aims to further investigate the Bi-directional Structural Optimisation (BESO) method which has recently been proposed by the applicant's team. New algorithms will be developed to substantially improve the efficiency and robustness of the BESO method. The expected outcome of the project is a simple and effective optimisation technique that can be used for the conceptual design of a wide range of engineering structures.Read moreRead less
Improved Management of Australian Port Infrastructure by Development of Predictive Ageing Simulation. Exposure of built infrastructure to corrosive marine conditions causes deterioration and reduced service life. Asset managers lack predictive models of in-service durability. Using data gathered from Australian ports, life-cycle predictions will be developed, simulating durability and incorporating geographical location, structure type, composition, and levels of maintenance. The modelling has ....Improved Management of Australian Port Infrastructure by Development of Predictive Ageing Simulation. Exposure of built infrastructure to corrosive marine conditions causes deterioration and reduced service life. Asset managers lack predictive models of in-service durability. Using data gathered from Australian ports, life-cycle predictions will be developed, simulating durability and incorporating geographical location, structure type, composition, and levels of maintenance. The modelling has not been undertaken on Australian port assets, whereas international models reflect very different infrastructure and exposures and are based on simpler 2D conditions that do not simulate actual deterioration. The three-dimensional (3D) modelling and graphics will be unique worldwide, providing decision support for construction and maintenance.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
ARC Research Network for Economic Design. The Economic Design Network is a partnership of more than one hundred researchers and over forty international universities and research centres. The Network will support cross disciplinary research and policy innovation using state of the art techniques in economic theory and experimental economics. It will create practical policy tools that can be used to solve complex social and economic problems in industry economics, health economics and environment ....ARC Research Network for Economic Design. The Economic Design Network is a partnership of more than one hundred researchers and over forty international universities and research centres. The Network will support cross disciplinary research and policy innovation using state of the art techniques in economic theory and experimental economics. It will create practical policy tools that can be used to solve complex social and economic problems in industry economics, health economics and environmental policy. By linking Australian mid and early career researchers into multidisciplinary teams based around the world's top experimental economics laboratories, it will create a world class economic design capacity in Australia.Read moreRead less
Extremum seeking control: analysis, design and applications. Optimal control is one of the central pillars in the field of automatic control, but is prevented from use in many engineering applications due to the computational complexity and system knowledge requirements typically associated with the technique. Extremum seeking promises the performance of an optimal approach, but with the benefit of real time implementation and very relaxed requirements on the system knowledge. Through improved u ....Extremum seeking control: analysis, design and applications. Optimal control is one of the central pillars in the field of automatic control, but is prevented from use in many engineering applications due to the computational complexity and system knowledge requirements typically associated with the technique. Extremum seeking promises the performance of an optimal approach, but with the benefit of real time implementation and very relaxed requirements on the system knowledge. Through improved understanding of extremum seeking algorithms, applications from vehicle dynamics to emissions reduction to manufacturing processes will benefit with greater levels of performance and robustness.Read moreRead less