Multiscale Integrated Modelling and Control of an Ethanol-Fuelled Tubular Solid Oxide Fuel Cell. The results from this project will allow use of alternative sources for energy through a better understanding of the functioning, design, operability and control of SOFCs. Fuel Cells (FCs) with biomass ethanol feed will not only act as reliable power source but also reduce greenhouse gas emissions. A successful R&D effort to develop FCs will improve the national energy security by reducing the growin ....Multiscale Integrated Modelling and Control of an Ethanol-Fuelled Tubular Solid Oxide Fuel Cell. The results from this project will allow use of alternative sources for energy through a better understanding of the functioning, design, operability and control of SOFCs. Fuel Cells (FCs) with biomass ethanol feed will not only act as reliable power source but also reduce greenhouse gas emissions. A successful R&D effort to develop FCs will improve the national energy security by reducing the growing dependency on foreign energy sources, improve the environment by reducing carbon and other harmful emissions, and improve the economic growth by expanding the portfolio of highly efficient energy and useful spill over technologies. Read moreRead less
Hierarchically Structured Graphene-Based Nanoassemblies. Developing high-efficiency, low-cost and environmentally friendly electrochemical energy conversion and storage devices is essential to many consumer electronics. The development of high-performance graphene-based electrode materials in this project will have significant impacts on the Australian economy. This project is expected to help place Australia at the forefront of advanced energy materials and nanotechnology, and enhance the inter ....Hierarchically Structured Graphene-Based Nanoassemblies. Developing high-efficiency, low-cost and environmentally friendly electrochemical energy conversion and storage devices is essential to many consumer electronics. The development of high-performance graphene-based electrode materials in this project will have significant impacts on the Australian economy. This project is expected to help place Australia at the forefront of advanced energy materials and nanotechnology, and enhance the international competitiveness and export power of Australian industry in the high-technology areas. It will also help address the rapidly growing environmental concerns and the increasing global demand for energy.Read moreRead less
Integration of Solar, Wind and Storage Systems into Distribution Grids for Network Support. This project will contribute to the development and utilisation of renewable energy technologies for a sustainable future and facilitate their integration into electricity grids for network support. Innovative methodologies and technologies will be developed to reduce network problems associated with the integration of a large number of small-scale renewable energy resources into distribution grids. This ....Integration of Solar, Wind and Storage Systems into Distribution Grids for Network Support. This project will contribute to the development and utilisation of renewable energy technologies for a sustainable future and facilitate their integration into electricity grids for network support. Innovative methodologies and technologies will be developed to reduce network problems associated with the integration of a large number of small-scale renewable energy resources into distribution grids. This project will also develop assessment tools to examine the impact of renewable energy penetration on power quality aspects, network stability and protection performance. This research will provide remedies for potential problems introduced by their integration and improve voltage support in the electricity networks. Read moreRead less
Porphyrin Based Supramolecular Assemblies and Arrays III - Model Systems for the Construction of Photosynthetic Mimics and Devices. Solar cells that convert light to electricity are an excellent solution to bringing energy to remote locations with abundant sunlight. This research proposal aims to provide an intellectual grounding in the development of molecular systems and supramolecular arrays that are capable of such solar energy conversion (photovoltaics & artificial photosynthesis) or that ....Porphyrin Based Supramolecular Assemblies and Arrays III - Model Systems for the Construction of Photosynthetic Mimics and Devices. Solar cells that convert light to electricity are an excellent solution to bringing energy to remote locations with abundant sunlight. This research proposal aims to provide an intellectual grounding in the development of molecular systems and supramolecular arrays that are capable of such solar energy conversion (photovoltaics & artificial photosynthesis) or that have potential applications in photonics. Developments in this project may also lead to breakthroughs in areas such as nano-scale computing and cleaner and more sustainable energy productionRead moreRead less
Development of advanced lithium ion battery and battery management system for electric /hybrid electric vehicle applications. This project represents a significant scientific and economic development for Australia as it aims to create advanced, high performing, energy storage devices with a focus on safety, that will provide enormous benefits for the environment. An added advantage will be the establishment of local and national expertise in the area of electrochemical energy storage systems, th ....Development of advanced lithium ion battery and battery management system for electric /hybrid electric vehicle applications. This project represents a significant scientific and economic development for Australia as it aims to create advanced, high performing, energy storage devices with a focus on safety, that will provide enormous benefits for the environment. An added advantage will be the establishment of local and national expertise in the area of electrochemical energy storage systems, that will place Australia at the forefront of lithium ion battery research and development. Flow-on benefits will also be created for Australian organizations involved in the manufacturing of electric vehicles and portable devices.Read moreRead less
Development of high-temperature superconducting coated conductors by pulsed-laser deposition technique for future long-length applications. The aim of the project is to develop a novel technology for manufacturing flexible coated conductors with the help of a pulsed laser deposition technique, in order to enhance the current-carrying ability of high-temperature superconducting coatings (including multi-layered coatings) for future long-length high power applications. To achieve desirable electr ....Development of high-temperature superconducting coated conductors by pulsed-laser deposition technique for future long-length applications. The aim of the project is to develop a novel technology for manufacturing flexible coated conductors with the help of a pulsed laser deposition technique, in order to enhance the current-carrying ability of high-temperature superconducting coatings (including multi-layered coatings) for future long-length high power applications. To achieve desirable electromagnetic properties governed by the nano-structures of the coatings, a well-balanced combination of world-class "global" and "local" electromagnetic property measurements with advanced structural characterisations is suggested. It is expected that a controlled network of nano-scale pinning centres will allow the development of high performance coated conductors.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
Development of inorganic-conducting polymer composites and ionic liquid-based electrolytes for rechargeable lithium batteries. The project will lead to development of safe lithium batteries for electric vehicles and hybrid electric vehicles to contribute to the national priority goal of reducing and capturing emissions in transport to improve our environment. Small, flexible batteries for new implantable medical devices will also be developed to treat millions of people suffering from different ....Development of inorganic-conducting polymer composites and ionic liquid-based electrolytes for rechargeable lithium batteries. The project will lead to development of safe lithium batteries for electric vehicles and hybrid electric vehicles to contribute to the national priority goal of reducing and capturing emissions in transport to improve our environment. Small, flexible batteries for new implantable medical devices will also be developed to treat millions of people suffering from different diseases. The development of new scientific knowledge related to this project will place Australia at the forefront of an emerging domain of research. The project will take the incentive in establishing a leading national position in development of new energy storage technology.
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Advanced Polymer Electrolytes for Device Applications. The future of an energy sustainable society relies upon the development of a range of technologies that will involve devices such as lithium batteries, supercapacitors, sensors and fuel cells. One of the key challenges is the discovery and development of high performance materials which overcome performance limiting issues such as conductivity, durability and stability in current devices. Our recent discovery of novel successful approaches ....Advanced Polymer Electrolytes for Device Applications. The future of an energy sustainable society relies upon the development of a range of technologies that will involve devices such as lithium batteries, supercapacitors, sensors and fuel cells. One of the key challenges is the discovery and development of high performance materials which overcome performance limiting issues such as conductivity, durability and stability in current devices. Our recent discovery of novel successful approaches to the design of improved electrolyte materials will be systematically exploited to develop materials that will provide the significant advance in device performance that is required.Read moreRead less
Characterization and design of new soft electrolyte materials. The use of fossil fuels for energy generation contributes heavily to global warming. The development of new types of energy sources (e.g. fuel cells) and energy storage devices (e.g. batteries) is of crucial importance to ease this pressure on the environment. The search for new, high energy-density electrolyte materials for these applications is intense. Recently, plastic crystal materials have been identified as potential electroly ....Characterization and design of new soft electrolyte materials. The use of fossil fuels for energy generation contributes heavily to global warming. The development of new types of energy sources (e.g. fuel cells) and energy storage devices (e.g. batteries) is of crucial importance to ease this pressure on the environment. The search for new, high energy-density electrolyte materials for these applications is intense. Recently, plastic crystal materials have been identified as potential electrolytes in a variety of electrochemical devices. These materials show high conductivity at ambient temperatures in their plastic (or soft) phase. This project aims to further investigate and develop these novel materials.Read moreRead less