New Techniques for Structural Biology and Directed Molecular Evolution. This PhD program will equip an Australian graduate with advanced training in techniques in molecular genetics and protein chemistry that are currently in high demand by the biotechnology industry, and also provide him/her with direct experience of an industrial R&D laboratory environment. Moreover, it will establish a basis for further collaboration between a leading University-based research laboratory and an established R& ....New Techniques for Structural Biology and Directed Molecular Evolution. This PhD program will equip an Australian graduate with advanced training in techniques in molecular genetics and protein chemistry that are currently in high demand by the biotechnology industry, and also provide him/her with direct experience of an industrial R&D laboratory environment. Moreover, it will establish a basis for further collaboration between a leading University-based research laboratory and an established R&D company that will lead to development of new techniques for use in biotechnology in Australia and overseas.Read moreRead less
NANO-SCALE CATALYST SYSTEMS FOR HYDROGEN GENERATION FOR FUEL CELLS. The project aims to develop nano-scale catalyst materials for micro-channel fuel processing systems. Micro-channel reactors have the benefits over conventional technology of being more compact and potential for much lower costs. This will assist in the development of hydrogen generation systems for fuel cells, as well as other chemical processing applications such as gas-to-liquids technology. The technology has the potential t ....NANO-SCALE CATALYST SYSTEMS FOR HYDROGEN GENERATION FOR FUEL CELLS. The project aims to develop nano-scale catalyst materials for micro-channel fuel processing systems. Micro-channel reactors have the benefits over conventional technology of being more compact and potential for much lower costs. This will assist in the development of hydrogen generation systems for fuel cells, as well as other chemical processing applications such as gas-to-liquids technology. The technology has the potential to generate significant IP in an evolving multi-billion dollar fuel cell industry. Support from Ceramic Fuel Cells Ltd. and the Gas Technology Institute will ensure that the work has an international as well as national perspective, and a route to exploitation.Read moreRead less
Hydrogen Production by Non-thermal Plasma Assisted Catalytic Pyrolysis of Natural Gas. This project aims to develop a cost effective technology for hydrogen production using catalytic pyrolysis of natural gas assisted by non-thermal plasma. The mechanism and kinetics of catalytic hydrocarbon decomposition on carbons produced in situ will be systematically studied. Based on the fundamental understanding of carbon nanostructures and their catalytic activities and stabilities, the non-thermal plasm ....Hydrogen Production by Non-thermal Plasma Assisted Catalytic Pyrolysis of Natural Gas. This project aims to develop a cost effective technology for hydrogen production using catalytic pyrolysis of natural gas assisted by non-thermal plasma. The mechanism and kinetics of catalytic hydrocarbon decomposition on carbons produced in situ will be systematically studied. Based on the fundamental understanding of carbon nanostructures and their catalytic activities and stabilities, the non-thermal plasma and the catalytic reactions will be optimized to achieve high conversion and catalytic stability. The project will lead to a new process combining effective carbon catalyst and low temperature plasma to produce pure hydrogen with high energy efficiency and no CO2 emissions.Read moreRead less
Hybrid cooling for coal fired power stations. Water shortage is a nation wide problem facing Australian industries. The project will directly benefit the Victorian power industry through water saving. If the new proposed hybrid cooling system concept is proved to be practically feasible, it will put the Australian power industry in a strong competitive position in terms of its efficiencies and waste heat recovery technology. Lowering the temperature of water into the cooling tower by 2 degree, b ....Hybrid cooling for coal fired power stations. Water shortage is a nation wide problem facing Australian industries. The project will directly benefit the Victorian power industry through water saving. If the new proposed hybrid cooling system concept is proved to be practically feasible, it will put the Australian power industry in a strong competitive position in terms of its efficiencies and waste heat recovery technology. Lowering the temperature of water into the cooling tower by 2 degree, by using the hybrid cooling system, it would save over 17,500,000 tons of makeup water per year for the Victorian power industry alone. At the same time, the waste heat recovered by the heat pump can be fed back to the power generation cycle. Read moreRead less
Novel Nanostructured Polymeric Membranes for Energy Storage Applications. The project will bring the following significant benefit to the Australian community and economy:1. Energy and Environmental benefit: will provide the nation with renewable energy storage solution, with zero emission and urban pollution2. Global Standing: will position Australia as global leader in sustainable energy storage technology through ZBB's novel battery system development.3. Intellectual property: will deliver th ....Novel Nanostructured Polymeric Membranes for Energy Storage Applications. The project will bring the following significant benefit to the Australian community and economy:1. Energy and Environmental benefit: will provide the nation with renewable energy storage solution, with zero emission and urban pollution2. Global Standing: will position Australia as global leader in sustainable energy storage technology through ZBB's novel battery system development.3. Intellectual property: will deliver the nation a strong intellectual property (IP) position in the frontier technology4. Training: will train junior researcher and a high quality graduate in an emerging and multidisciplinary area of research with commercial turnover of more than $1000 million in AustraliaRead moreRead less
The Production of Respiratory Cell Lineages from Human Embryonic Stem Cells: Towards a Cell Replacement Therapy for the Treatment of Respiratory Specific Deficits. Embryonic stem (ES) cells are a primitive embryonic cell type that can be maintained and grown in vitro. Mouse ES cells can be instructed to develop into a wide range of specific adult cell types. Research into human ES cells has more recently commenced and has already resulted in the controlled production of specific nerve cells by o ....The Production of Respiratory Cell Lineages from Human Embryonic Stem Cells: Towards a Cell Replacement Therapy for the Treatment of Respiratory Specific Deficits. Embryonic stem (ES) cells are a primitive embryonic cell type that can be maintained and grown in vitro. Mouse ES cells can be instructed to develop into a wide range of specific adult cell types. Research into human ES cells has more recently commenced and has already resulted in the controlled production of specific nerve cells by our group. The following project aims to create respiratory lineages from both mouse and human ES cells. Such an undertaking thus aims to provide a basis for the treatment of respiratory specific diseases such as cystic fibrosis and emphysema.Read moreRead less
New Methods for Directed Molecular Evolution of Novel Protein Functions. Novel ribosome-based techniques can be used to carry out test-tube evolution of proteins with new structures and functions. The methods rely on (a) physical association of individual nucleic acid molecules with the particular protein molecules they encode, (b) selection of proteins with new functions, and (c) recovery of the attached genetic code. This project will address several issues that currently limit use of these fr ....New Methods for Directed Molecular Evolution of Novel Protein Functions. Novel ribosome-based techniques can be used to carry out test-tube evolution of proteins with new structures and functions. The methods rely on (a) physical association of individual nucleic acid molecules with the particular protein molecules they encode, (b) selection of proteins with new functions, and (c) recovery of the attached genetic code. This project will address several issues that currently limit use of these frontier technologies for evolution of new protein products that have a wide range of practical applications.Read moreRead less
Nanostructured Carbon Electrodes. The development of higher capacity energy storage devices is critical to the efficient use of energy. The fundamental knowledge gained in this project will enable the production of the next generation advanced electrode materials for this purpose and hence provide many new commercial opportunities for Australian industry. The project brings together world leaders in their own fields to address a highly multidisciplinary area of research and will provide an excel ....Nanostructured Carbon Electrodes. The development of higher capacity energy storage devices is critical to the efficient use of energy. The fundamental knowledge gained in this project will enable the production of the next generation advanced electrode materials for this purpose and hence provide many new commercial opportunities for Australian industry. The project brings together world leaders in their own fields to address a highly multidisciplinary area of research and will provide an excellent training for PhD students and post doctoral Research Fellows, enabling them to work in and contribute to the development of new nanotechnology industries in Australia.Read moreRead less
Monitoring and Modelling Hydrogeochemical Interactions with Groundwater : Implications for Mine Dewatering on Groundwater, River and Lake Chemistry. Alcoa operates a power station and brown coal mine at Anglesea in western Victoria. Following heavy rain in 2000 acidic water entered the Anglesea estuary causing precipitation of iron and aluminium flocs and fish kills. Estuary closure to tourism resulted. This project will identify the cause(s) of this phenomenon by modelling groundwater movement ....Monitoring and Modelling Hydrogeochemical Interactions with Groundwater : Implications for Mine Dewatering on Groundwater, River and Lake Chemistry. Alcoa operates a power station and brown coal mine at Anglesea in western Victoria. Following heavy rain in 2000 acidic water entered the Anglesea estuary causing precipitation of iron and aluminium flocs and fish kills. Estuary closure to tourism resulted. This project will identify the cause(s) of this phenomenon by modelling groundwater movement and studying geochemical processes. The resultant hydrogeochemical model will also be applied to simulating longer term water quality changes in the catchment arising from current mine dewatering operations and future rewatering following mine closure.
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ROBUST SOLID OXIDE FUEL CELL TECHNOLOGY FOR SMALL-SCALE APPLICATIONS. The project aims to develop nano-materials for the next generation planar Solid Oxide Fuel Cell (SOFC) that will operate at temperatures between 600 and 800°C. The goal is to identify and demonstrate materials that meet the robust requirements for small scale power generators at the 3-5kW scale. It is expected that these will be used in stationary power generation applications, in remote area power supplies, and for providing ....ROBUST SOLID OXIDE FUEL CELL TECHNOLOGY FOR SMALL-SCALE APPLICATIONS. The project aims to develop nano-materials for the next generation planar Solid Oxide Fuel Cell (SOFC) that will operate at temperatures between 600 and 800°C. The goal is to identify and demonstrate materials that meet the robust requirements for small scale power generators at the 3-5kW scale. It is expected that these will be used in stationary power generation applications, in remote area power supplies, and for providing auxiliary power in vehicles. The work builds on the world-leading position that Ceramic Fuel Cells Ltd. has in planar SOFC technology, utilising micro-analysis and fuel cell expertise at the University of Queensland.Read moreRead less