Dual Geothermal System for Fresh Water Production and Power Generation. The dual geothermal system for fresh water production and power generation developed in this project will use relatively low-temperature geothermal resources and assist in supplying domestic fresh water as well as electricity to small communities remote from the main electricity grid without any associated greenhouse gas emissions. The technology developed will provide an opportunity for industry development, employment crea ....Dual Geothermal System for Fresh Water Production and Power Generation. The dual geothermal system for fresh water production and power generation developed in this project will use relatively low-temperature geothermal resources and assist in supplying domestic fresh water as well as electricity to small communities remote from the main electricity grid without any associated greenhouse gas emissions. The technology developed will provide an opportunity for industry development, employment creation and export potential through commercial manufacture in Australia of small to medium scale dual geothermal systems (e.g., 0.1 MW, 75000 litres fresh water per day).Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0883074
Funder
Australian Research Council
Funding Amount
$600,000.00
Summary
Distributed Generation Evaluation Facility and Power Control. The development and demonstration of Distributed Energy Resource solutions will assist the deployment of greenhouse gas reduction strategies and of reliability improvements with particular benefits for rural and remote electricity supply. Small generation units can be the best solution for some reliability and voltage support issues in rural/remote networks. The research will show how these can be operated and the benefits achievable ....Distributed Generation Evaluation Facility and Power Control. The development and demonstration of Distributed Energy Resource solutions will assist the deployment of greenhouse gas reduction strategies and of reliability improvements with particular benefits for rural and remote electricity supply. Small generation units can be the best solution for some reliability and voltage support issues in rural/remote networks. The research will show how these can be operated and the benefits achievable for sources including renewables in a manner that is accessible to communities and with a rigorous set of test scenarios that will satisfy concerns from utilities. The flexible system nature is the significant development previously unavailable to researchers/developers.Read moreRead less
Bio-oil from woody biomass - a sustainable fuel for Australia. At present many alternative energy supply systems suffer from factors like high costs, inefficiency and in some cases inappropriate application of immature technology and so are unsustainable. To overcome these problems, this research proposes the development of an integrated biomass solution to energy supply as well as dry land salinity. By doing so a sustainable and cost effective industry can be developed. Furthermore, if such an ....Bio-oil from woody biomass - a sustainable fuel for Australia. At present many alternative energy supply systems suffer from factors like high costs, inefficiency and in some cases inappropriate application of immature technology and so are unsustainable. To overcome these problems, this research proposes the development of an integrated biomass solution to energy supply as well as dry land salinity. By doing so a sustainable and cost effective industry can be developed. Furthermore, if such an industry is based on advances in Australian research and development, exporting this to other countries with similar problems, will further enhance its economic and social benefit to Australia.Read moreRead less
Energy transforming polymers: from single molecules to devices. Climate control and the rapidly increasing demand for energy is driving the search for alternative sustainable energy sources. Flexible plastics will be a primary component of the new generation of solar harvesting and energy conversion materials. The objective of this project is to gain an understanding of the way polymers interact with light and can convert absorbed solar energy into electrical power and other useful forms of ene ....Energy transforming polymers: from single molecules to devices. Climate control and the rapidly increasing demand for energy is driving the search for alternative sustainable energy sources. Flexible plastics will be a primary component of the new generation of solar harvesting and energy conversion materials. The objective of this project is to gain an understanding of the way polymers interact with light and can convert absorbed solar energy into electrical power and other useful forms of energy. The outcomes of the project will allow the improved design of plastics for applications in solar energy conversion.Read moreRead less
Physics of combustion of multicomponent alternative transport fuels. Reducing Australian reliance on imported fuels, especially oil, will enhance the Australian long term energy outlook and the national energy security, and will assist Australia to reach future greenhouse gas emission targets. At a local level, the production of alternative transport fuels has the potential to provide rural Australia with a sustainable biomass-based industry. The establishment of fast growing wood plantations ....Physics of combustion of multicomponent alternative transport fuels. Reducing Australian reliance on imported fuels, especially oil, will enhance the Australian long term energy outlook and the national energy security, and will assist Australia to reach future greenhouse gas emission targets. At a local level, the production of alternative transport fuels has the potential to provide rural Australia with a sustainable biomass-based industry. The establishment of fast growing wood plantations to supply the needs of the new industry can assist regions of low rain-fall and high salinity to recover. Exporting advanced Australian alternative fuels technology to other countries with similar energy and environmental problems will further enhance the economic and social benefit to Australia.Read moreRead less
Computational approaches to selection and design of ionic materials. Advanced batteries, fuel cells and solar cell technologies are beginning to use ionic liquids/plastic crystals as electrolytes due to their superb stability and valuable properties. As a broad class these ionic materials have only been known for the last 10 years or so and there is much to learn about their structure and properties. The project will develop and advance quantum chemical techniques for selection and design of ion ....Computational approaches to selection and design of ionic materials. Advanced batteries, fuel cells and solar cell technologies are beginning to use ionic liquids/plastic crystals as electrolytes due to their superb stability and valuable properties. As a broad class these ionic materials have only been known for the last 10 years or so and there is much to learn about their structure and properties. The project will develop and advance quantum chemical techniques for selection and design of ionic materials with the goal of developing electrolytes for a range of applications from advanced metal batteries, solar cells to fuel cells. These applications will have impact on energy efficiency and energy conservation by enabling CO2 replacing technologies. Read moreRead less
Fully ab initio, large-scale calculations of thermodynamic and transport properties of ionic materials. Advanced batteries, fuel cells, and photonic device technologies are beginning to use ionic materials as electrolytes due to their superb stability and technologically valuable properties. As a broad class these materials have only been known for just over a decade and there is still more unknown than known about their structure and properties. The project will develop new advanced computation ....Fully ab initio, large-scale calculations of thermodynamic and transport properties of ionic materials. Advanced batteries, fuel cells, and photonic device technologies are beginning to use ionic materials as electrolytes due to their superb stability and technologically valuable properties. As a broad class these materials have only been known for just over a decade and there is still more unknown than known about their structure and properties. The project will develop new advanced computational methods as a basis for understanding their properties and thereby allowing us to design-in desired features. Ultimately these advances will have support the development of energy efficient CO2 replacement technologies.Read moreRead less
Atomisation and Combustion Physics of Australian Bio-oils. Australia is highly dependent on fossil fuels for energy production and transport, and this dependence is growing. Wide spread substitution of liquid hydrocarbon fuels by indigenous renewable bio-oil has the potential to improve Australian's energy outlook and assist in reaching greenhouse gas targets. Understanding the interrelationships between the physical and chemical properties of bio-oil, its atomisation, droplet formation and com ....Atomisation and Combustion Physics of Australian Bio-oils. Australia is highly dependent on fossil fuels for energy production and transport, and this dependence is growing. Wide spread substitution of liquid hydrocarbon fuels by indigenous renewable bio-oil has the potential to improve Australian's energy outlook and assist in reaching greenhouse gas targets. Understanding the interrelationships between the physical and chemical properties of bio-oil, its atomisation, droplet formation and combustion physics is fundamental to the delivery of an efficient and reliable combustion process using this fuel. Measurements using laser based diagnostics of the atomisation flow, droplet formation and combustion process will provide the experimental data to understand this complex interrelationship.Read moreRead less
Polymerization of amyloid fibrils and electroactive hybrid nanowires using ionic liquids. The electronics world is constantly shrinking with devices being miniaturised and increasing levels of complexity built in. To maintain this trend, new technologies and new device fabrication approaches are required. APD Byrne, will develop new materials based on amyloid fibrils by their facile conversion to a range of novel high strength electroactive nanoscopic wires with application in many electronic d ....Polymerization of amyloid fibrils and electroactive hybrid nanowires using ionic liquids. The electronics world is constantly shrinking with devices being miniaturised and increasing levels of complexity built in. To maintain this trend, new technologies and new device fabrication approaches are required. APD Byrne, will develop new materials based on amyloid fibrils by their facile conversion to a range of novel high strength electroactive nanoscopic wires with application in many electronic devices. One such device that will benefit from these nanowires is organic solar cells. Solar is a clean renewable energy source that can reduce Australia's dependence on fossil fuels. The development of new approaches and materials aimed at increasing solar cell efficiencies is an important outcome for Australia.Read moreRead less
Photo-enhanced water oxidation using novel structures and conjugated polymers. This project will lead to a more sustainable environment in Australia as it will help reduce greenhouse gas emission from energy consumption. The proposed solar water splitting cell will facilitate an efficient, low-cost and renewable production of hydrogen. Hydrogen is considered to be the ultimate fuel since only water is produced as a product of combustion. Already hydrogen powered fuel cell vehicles are being pro ....Photo-enhanced water oxidation using novel structures and conjugated polymers. This project will lead to a more sustainable environment in Australia as it will help reduce greenhouse gas emission from energy consumption. The proposed solar water splitting cell will facilitate an efficient, low-cost and renewable production of hydrogen. Hydrogen is considered to be the ultimate fuel since only water is produced as a product of combustion. Already hydrogen powered fuel cell vehicles are being produced by a number of the major car manufacturers. The solar water splitting technology based on sustainable materials and the novel cell configuration to be developed in this project will provide the needed stability and efficiency of the cell as well as reduce the manufacturing cost. Read moreRead less