Variable Geometry Cooling Intakes for Passenger Vehicles. Cars reject engine heat via air forced through the grille, radiator and engine bay. The associated "cooling drag" increases total aerodynamic drag by 10-15% hence increasing fuel consumption. The highest heat load that needs to be rejected by the engine determines the quantity of cooling air, resulting in systems that are over designed for typical driving. This research provides a strategy of adjusting the cooling airflow to match the ....Variable Geometry Cooling Intakes for Passenger Vehicles. Cars reject engine heat via air forced through the grille, radiator and engine bay. The associated "cooling drag" increases total aerodynamic drag by 10-15% hence increasing fuel consumption. The highest heat load that needs to be rejected by the engine determines the quantity of cooling air, resulting in systems that are over designed for typical driving. This research provides a strategy of adjusting the cooling airflow to match the engine requirements (via variable geometry intakes that can be under the control of the engine management computer) offering substantial reductions in fuel consumption and emissions.Read moreRead less
Synthesis of functionalised metal oxide beads with hierarchical pores for radionuclide and metal sequestration. The central aim of this project is to fabricate nanostructured materials to address the worldwide issue of nuclear waste. These novel materials, with tailored porosity and surface functionality, will decrease both radioactive waste volume and the potential for environmental risk. The collaboration between the Caruso group at the University of Melbourne and the Luca group at ANSTO will ....Synthesis of functionalised metal oxide beads with hierarchical pores for radionuclide and metal sequestration. The central aim of this project is to fabricate nanostructured materials to address the worldwide issue of nuclear waste. These novel materials, with tailored porosity and surface functionality, will decrease both radioactive waste volume and the potential for environmental risk. The collaboration between the Caruso group at the University of Melbourne and the Luca group at ANSTO will educate more scientists and students in the areas of nuclear science and engineering, and the environmental impact of nuclear power generators. Such expertise is currently in high demand around the world, thereby enhancing Australia's position in the global nuclear field.Read moreRead less
Novel nanostructured alloy membranes for hydrogen permeation: Advanced materials technology for renewable energy. Hydrogen purification by alloy membranes is a key technology in maintaining the greenhouse gas emission low while using the fossil fuels including coal for energy generation. However, the alloys currently available for the membrane separation are mostly based on a costly precious metal palladium, making the application of the technology limited. The proposed non-equilibrium material ....Novel nanostructured alloy membranes for hydrogen permeation: Advanced materials technology for renewable energy. Hydrogen purification by alloy membranes is a key technology in maintaining the greenhouse gas emission low while using the fossil fuels including coal for energy generation. However, the alloys currently available for the membrane separation are mostly based on a costly precious metal palladium, making the application of the technology limited. The proposed non-equilibrium material processing will enable us to fabricate novel nanocomposite niobium-based alloys to which excellent hydrogen permeation characteristics are expected with high economic viability. Successful development of the proposed alloys could enhance the competitiveness of the Australian coal industry worldwide.Read moreRead less
Optimisation of indoor air quality, thermal comfort and energy usage within buildings located in busy transit oriented urban developments. The socio-economic benefits to Australia from the project include (i) a novel holistic modelling tool to building design that maximises indoor comfort and provides acceptable air quality for the inhabitants whilst minimising energy usage in transit oriented urban developments; and (ii) estimation of energy consumption for different building designs and operat ....Optimisation of indoor air quality, thermal comfort and energy usage within buildings located in busy transit oriented urban developments. The socio-economic benefits to Australia from the project include (i) a novel holistic modelling tool to building design that maximises indoor comfort and provides acceptable air quality for the inhabitants whilst minimising energy usage in transit oriented urban developments; and (ii) estimation of energy consumption for different building designs and operation with respect to air quality and thermal comfort. The ultimate economic benefit of this research will be a reduction in health care costs and lost productivity as well as reduction of energy used and associated emissions. The research will also place Australia in the forefront of international progress and the race towards better methods for achieving environmental sustainability.Read moreRead less
Interphase Engineering of Reactive Metal Surfaces Using Ionic Liquids. Corrosion is a multi-billion dollar problem for all developed countries which limits the use of a number of advanced, light weight alloys in applications ranging from aircraft components to artificial hip-joints. The outcomes of this project will be surface treatments which will enable a range of these applications including magnesium alloys in a wider range of engineering uses, magnesium for advanced metal batteries and coat ....Interphase Engineering of Reactive Metal Surfaces Using Ionic Liquids. Corrosion is a multi-billion dollar problem for all developed countries which limits the use of a number of advanced, light weight alloys in applications ranging from aircraft components to artificial hip-joints. The outcomes of this project will be surface treatments which will enable a range of these applications including magnesium alloys in a wider range of engineering uses, magnesium for advanced metal batteries and coatings for medical implant applications. Many of these applications will make a significant contribution to reducing our greenhouse gas emissions.Read moreRead less
A microbiological risk assessment model for the use of reclaimed water in irrigated horticulture. The volume of reclaimed water used in Australia is increasing. A major use of reclaimed water is irrigation of horticultural crops. There are considerable associated risks including contamination of soil and plants and accidental ingestion of harmful pathogens. Whilst research on many risks has been conducted, there are knowledge gaps and information is not readily available to managers. The centr ....A microbiological risk assessment model for the use of reclaimed water in irrigated horticulture. The volume of reclaimed water used in Australia is increasing. A major use of reclaimed water is irrigation of horticultural crops. There are considerable associated risks including contamination of soil and plants and accidental ingestion of harmful pathogens. Whilst research on many risks has been conducted, there are knowledge gaps and information is not readily available to managers. The central aim of this project will be to develop a new, comprehensive mathematical risk assessment model able to simulate different irrigation and horticultural scenarios. The primary output will be a user-friendly environmental decision support system incorporating the newly developed model.Read moreRead less
A study of high temperature transformation of oil shale - In-situ mineral reactions and structure analysis. In the current energy market, non-traditional fuels like oil shale are becoming more economically important. Australia has >33 billion tonnes of oil shales resources with potential for >1800 million tonnes of recoverable oil. This potential multi-billion dollar industry depends upon development of an efficient technology leading to economical oil production and much cleaner organic liquid ....A study of high temperature transformation of oil shale - In-situ mineral reactions and structure analysis. In the current energy market, non-traditional fuels like oil shale are becoming more economically important. Australia has >33 billion tonnes of oil shales resources with potential for >1800 million tonnes of recoverable oil. This potential multi-billion dollar industry depends upon development of an efficient technology leading to economical oil production and much cleaner organic liquid fuels. Retorting and combustion, which are core parts of oil shale conversion technology, would benefit from improved process conditions. This research proposal intends to investigate the in-situ complex oil shale thermal conversion reactions that occur during the retorting and combustion processes. Improved understanding of these complex reactions could lead to substantial economic and environmental improvements in oil shale processing.Read moreRead less
Low Temperature Catlytic Wet Oxidation of Organics from Strippped Sour Water. The commercialisation of a ~$3billion Australian oil shale industry heavily depends upon environmental sustainability of its technology. One key environmental issue of this technology is a need to remove organics from an aqueous industrial stream (stripped sour water). This proposal aims to develop a method based on catalytic wet oxidation for removing organics from stripped sour water. Research will be focused to deve ....Low Temperature Catlytic Wet Oxidation of Organics from Strippped Sour Water. The commercialisation of a ~$3billion Australian oil shale industry heavily depends upon environmental sustainability of its technology. One key environmental issue of this technology is a need to remove organics from an aqueous industrial stream (stripped sour water). This proposal aims to develop a method based on catalytic wet oxidation for removing organics from stripped sour water. Research will be focused to develop and study potential catalytic systems to lower the activation energy of the rate-determining step and to increase the rate of organics oxidation. The development of such a method would be a substantial technology achievement with many applications in pollution control for wastewater treatment in many other industries.Read moreRead less
The rational development of improved pre-conditioning agents for the removal of oil contamination from wildlife and rocky foreshore. Wildlife and ecological resources such as Phillip Island's Little Penguin colony (with 500,000 visitors p.a.) and its environment are at the heart of Australia's ecotourism industry. If properly managed, such resources make significant contributions to the economy and can provide diverse employment opportunities for local communities. They also increase awareness o ....The rational development of improved pre-conditioning agents for the removal of oil contamination from wildlife and rocky foreshore. Wildlife and ecological resources such as Phillip Island's Little Penguin colony (with 500,000 visitors p.a.) and its environment are at the heart of Australia's ecotourism industry. If properly managed, such resources make significant contributions to the economy and can provide diverse employment opportunities for local communities. They also increase awareness of, and sensitivity to, environmental issues in general. Developing and implementing new and improved techniques for the rescue and rehabilitation of oiled wildlife and for the remediation of contaminated foreshore, apart from its inherent value, will contribute to the sustainability of such resources both at the national and international level. Read moreRead less
Optimisation and Control of Bagasse Handling System in a Sugar Mill. Bagasse, the fibre residue from sugar cane, is used as fuel in suspension fired boilers for energy production for the sugar milling process. The use of bagasse as a fuel is currently gaining more prominence as the sugar industry looks to co-generation joint ventures with traditional electricity supply and generation authorities. This project is aimed at applying optimisation and control techniques to bagasse handling system in ....Optimisation and Control of Bagasse Handling System in a Sugar Mill. Bagasse, the fibre residue from sugar cane, is used as fuel in suspension fired boilers for energy production for the sugar milling process. The use of bagasse as a fuel is currently gaining more prominence as the sugar industry looks to co-generation joint ventures with traditional electricity supply and generation authorities. This project is aimed at applying optimisation and control techniques to bagasse handling system in a CSR sugar mill so that the fibre residue from sugar cane can be used to gain maximum efficiency in generating energy supplies in the sugar mill. If the project succeeds, other sugar mills from CSR would implement the advanced control system.Read moreRead less