Methane Coupling Using Mixed Conducting Catalytic Ceramic Hollow Fibre Membrane Reactor. The Gas product industry is one of the most important economic sectors in Australia, employing 10000 people with market value of $ 100 billion per year from power generation and LNG export. However, there are increasing concerns over issues of the green house gases emission and petroleum dwindling. This project addresses the technology needs in converting natural gas to more useful chemicals via a more effic ....Methane Coupling Using Mixed Conducting Catalytic Ceramic Hollow Fibre Membrane Reactor. The Gas product industry is one of the most important economic sectors in Australia, employing 10000 people with market value of $ 100 billion per year from power generation and LNG export. However, there are increasing concerns over issues of the green house gases emission and petroleum dwindling. This project addresses the technology needs in converting natural gas to more useful chemicals via a more efficient and cleaner means of methane utilization. The project target is to make the natural gas resources in Australia to delivery high value products with considerable economic benefits and increased employment opportunities. Read moreRead less
Development of conductive buffer layers for RABiTS-based coated conductors. YBCO coated conductor has already been identified and developed as far as second generation HTS wire in power applications. Major advances have been made in the last 10 years in coated conductor development mainly in all aspects: substrate, buffer layer and YBCO layer. The research on conductive buffers layer will improve and expand the R&D on coated conductor in Australia. On the economic side, dramatic advantages and s ....Development of conductive buffer layers for RABiTS-based coated conductors. YBCO coated conductor has already been identified and developed as far as second generation HTS wire in power applications. Major advances have been made in the last 10 years in coated conductor development mainly in all aspects: substrate, buffer layer and YBCO layer. The research on conductive buffers layer will improve and expand the R&D on coated conductor in Australia. On the economic side, dramatic advantages and savings could be achieved if the coated conductors can be put to use. Superconductivity can have a significant role in deregulated electricity markets and in lessening CO2 emissions and other environmental impacts.Read moreRead less
Nanocomposite Mesoporous Materials for Gas Separations of Environmental Significance. The management of greenhouse and other acid gas emissions is vital to a sustainable future of both the economy and the ecosystem. This project will develop novel nano-materials for gas separation by tethering organic functional groups to the surface of porous inorganic supports. These materials offer the promise of combining the high selectivity and high capacity of liquid phase absorption systems with the rapi ....Nanocomposite Mesoporous Materials for Gas Separations of Environmental Significance. The management of greenhouse and other acid gas emissions is vital to a sustainable future of both the economy and the ecosystem. This project will develop novel nano-materials for gas separation by tethering organic functional groups to the surface of porous inorganic supports. These materials offer the promise of combining the high selectivity and high capacity of liquid phase absorption systems with the rapid transport rates of gas-solid adsorption systems. Success would open up several new possibilities for reengineering gas separation systems based on the use of these materials in solution, as solid phase adsorbents (pressure swing adsorption) and/or as permeselective gas membranes.Read moreRead less
Mapping new cathode materials for aqueous rechargeable batteries: The mechanism of intercalation of lithium in aqueous solutions. This technology could power electric vehicles of the future. With the aid of using advanced oxide and phosphate materials for an aqueous battery, the project will establish a widespread use of green energy for national benefit. This will help us to reduce the current emission observed in transport and energy conversion. The project will facilitate an understanding the ....Mapping new cathode materials for aqueous rechargeable batteries: The mechanism of intercalation of lithium in aqueous solutions. This technology could power electric vehicles of the future. With the aid of using advanced oxide and phosphate materials for an aqueous battery, the project will establish a widespread use of green energy for national benefit. This will help us to reduce the current emission observed in transport and energy conversion. The project will facilitate an understanding the electrochemical energy storage technology. The challenging and significant results from this project will contribute to the energy industries to build non-pollutant high energy storage equipments and productivity of Australia's research and development.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
Production of hydrogen from biomass by integrated catalytic aqueous hydrolysis and reforming in subcritical water. The outcomes of this project will lead to the development of a novel process for efficient and cost-effective hydrogen production from renewable biomass using integrated hydrolysis and catalytic aqueous reforming at low temperatures. Such technological innovation will provide significant benefits to Australia as a whole for transition to a truly sustainable hydrogen economy. The nov ....Production of hydrogen from biomass by integrated catalytic aqueous hydrolysis and reforming in subcritical water. The outcomes of this project will lead to the development of a novel process for efficient and cost-effective hydrogen production from renewable biomass using integrated hydrolysis and catalytic aqueous reforming at low temperatures. Such technological innovation will provide significant benefits to Australia as a whole for transition to a truly sustainable hydrogen economy. The novel reaction system and research methodologies proposed in this proposal will certainly enhance Australia's science and technology capability and international competitiveness, in the area of reaction engineering. Also of the national benefit is the successful training of a postgraduate at PhD level who will no doubt add to future scientific research workforce.Read moreRead less
New approach to turbulent combustion modelling based on Multiple Mapping Conditioning. The project ensures that Australia remains at the front line of international development of new tools and approaches designed to model turbulent combustion. Improvements in modelling techniques will have a direct effect on optimisation of the industrial energy production from conventional sources and will assist in resolving the associated ecological issues. The project will also train several researches to b ....New approach to turbulent combustion modelling based on Multiple Mapping Conditioning. The project ensures that Australia remains at the front line of international development of new tools and approaches designed to model turbulent combustion. Improvements in modelling techniques will have a direct effect on optimisation of the industrial energy production from conventional sources and will assist in resolving the associated ecological issues. The project will also train several researches to be qualified to work at the frontiers of modern combustion modelling in gaseous flows.Read moreRead less
Development of Carbon Nanotube Nanothermometers and Their Application for Temperature Measurement in the Catalytic Layers of Fuel Cells. The project encompasses cutting-edge work in nanotechnology and advanced materials, covering aspects of carbon nanotubes and their applications, along with fuel cell technology. It will provide unique insights into the phenomena of the nanoworld, including manipulation of nanotubes, and nanoscale oxidation behaviour and temperature measurement. The scientific a ....Development of Carbon Nanotube Nanothermometers and Their Application for Temperature Measurement in the Catalytic Layers of Fuel Cells. The project encompasses cutting-edge work in nanotechnology and advanced materials, covering aspects of carbon nanotubes and their applications, along with fuel cell technology. It will provide unique insights into the phenomena of the nanoworld, including manipulation of nanotubes, and nanoscale oxidation behaviour and temperature measurement. The scientific and engineering understanding acquired through this project is vital for solving the problems that limit the wide application of fuel cells. Ultimately, full commercialisation of fuel cells will provide significant environmental benefits by increasing the use of renewable energy sources and reducing greenhouse gas emissions.Read moreRead less
Novel Graphitic Mesoporous Carbon Materials for Next Generation Carbon Catalyst Supports and Carbon Electrodes. This project will bring about direct application benefits in terms of disclosing novel graphitic mesoporous carbons with high accessible surface area and graphitic framework as catalyst supports and electrode materials. This would lead to advanced processes important to the Australian energy and environmental industries, such as electrical double layer capacitors, greenhouse reduction ....Novel Graphitic Mesoporous Carbon Materials for Next Generation Carbon Catalyst Supports and Carbon Electrodes. This project will bring about direct application benefits in terms of disclosing novel graphitic mesoporous carbons with high accessible surface area and graphitic framework as catalyst supports and electrode materials. This would lead to advanced processes important to the Australian energy and environmental industries, such as electrical double layer capacitors, greenhouse reduction by hydrogen fuel, and hydrodesulfurization of diesel fuels. The techniques and synthesis strategies developed in this project are also applicable to creating other graphitic mesoporsous carbons important to advanced sensors, fuel cells and optoelectronic applications. Read moreRead less
Development of Superflux Carbon Nanotube Membranes for Gas Separation. The project seeks to develop gas separation membranes displaying superfluxes - throughputs 10 to 100 times higher than current systems, with lower operating costs. There is compelling evidence that very high flow rates are achievable and they have been shown for single gas transport. Theory predicts that highly selective separations are possible, but this has not yet been experimentally shown - a key outcome from this proje ....Development of Superflux Carbon Nanotube Membranes for Gas Separation. The project seeks to develop gas separation membranes displaying superfluxes - throughputs 10 to 100 times higher than current systems, with lower operating costs. There is compelling evidence that very high flow rates are achievable and they have been shown for single gas transport. Theory predicts that highly selective separations are possible, but this has not yet been experimentally shown - a key outcome from this project. The applications are widespread and include separation of carbon dioxide from power station flue gas for sequestration, purification of natural gas and provision of pure component gases such as oxygen and nitrogen amongst others.Read moreRead less