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Energy is currently a major issue for the Fishing Industry and an area in which the FRDC has focused in the past five years. FRDC has developed a good international network to share research outcomes the issue of energy, fuel and improving boat efficiency.
On 20 May 2010, the first major international conference on energy and fishing will be held in Spain. E-Fishing 2010 is the first of a series of biannual conferences devoted to the study of energy efficiency in the fishing world. Thi ....Energy is currently a major issue for the Fishing Industry and an area in which the FRDC has focused in the past five years. FRDC has developed a good international network to share research outcomes the issue of energy, fuel and improving boat efficiency.
On 20 May 2010, the first major international conference on energy and fishing will be held in Spain. E-Fishing 2010 is the first of a series of biannual conferences devoted to the study of energy efficiency in the fishing world. This symposium aims to be a forum where experts will present the latest advances in research and development aimed at improving the energy efficiency of fishing vessels and systems.
It is important that the informaiton form this conference is extended and made available for the fishing industry in Australia. Objectives: 1. Extension of research presented at the E-fishing conference on "energy" related issues relevant to the fishing industry Read moreRead less
Energy is currently a major issue for the Fishing Industry and an area in which the FRDC has focused in the past five years. FRDC has developed a good international network to share research outcomes the issue of energy, fuel and improving boat efficiency.
On 20 May 2010, the first major international conference on energy and fishing will be held in Spain. E-Fishing 2010 is the first of a series of biannual conferences devoted to the study of energy efficiency in the fishing world. Thi ....Energy is currently a major issue for the Fishing Industry and an area in which the FRDC has focused in the past five years. FRDC has developed a good international network to share research outcomes the issue of energy, fuel and improving boat efficiency.
On 20 May 2010, the first major international conference on energy and fishing will be held in Spain. E-Fishing 2010 is the first of a series of biannual conferences devoted to the study of energy efficiency in the fishing world. This symposium aims to be a forum where experts will present the latest advances in research and development aimed at improving the energy efficiency of fishing vessels and systems.
It is important that the informaiton form this conference is extended and made available for the fishing industry in Australia. Objectives: 1. Extension of research presented at the E-fishing conference on "energy" related issues relevant to the fishing industry Read moreRead less
Design of hollow nanoparticles of titania for the sustainable production of hydrogen from water using sunlight. Hydrogen is a clean and non-polluting fuel that is the natural and sustainable replacement for greenhouse gas emitting fossil fuels. Because of its abundant sunlight and vast titanium reserves (the world's largest) Australia is especially well-placed to develop the technology of producing hydrogen directly from water and sunlight using a titanium dioxide photo-anode. This research, whi ....Design of hollow nanoparticles of titania for the sustainable production of hydrogen from water using sunlight. Hydrogen is a clean and non-polluting fuel that is the natural and sustainable replacement for greenhouse gas emitting fossil fuels. Because of its abundant sunlight and vast titanium reserves (the world's largest) Australia is especially well-placed to develop the technology of producing hydrogen directly from water and sunlight using a titanium dioxide photo-anode. This research, which consists of computational and experimental parts, is focused on laying the scientific foundation for that technology to be commercially viable. The national and community benefits are the availability of an inexpensive, limitless and clean fuel, reduction in reliance on energy imports, reduction in greenhouse gas emissions and resultant global warming.Read moreRead less
Computational design of titanium dioxide-based ceramics for the renewable energy technology platform: Solar-Hydrogen. Hydrogen is a clean non-polluting fuel. Production of hydrogen (Solar-Hydrogen) directly from water and sunlight is a very appealing renewable energy technology. The key requirement to allow this technology to be adopted is finding an electrically suitable material. This research program takes an innovative approach by combining state of the art computational techniques to engine ....Computational design of titanium dioxide-based ceramics for the renewable energy technology platform: Solar-Hydrogen. Hydrogen is a clean non-polluting fuel. Production of hydrogen (Solar-Hydrogen) directly from water and sunlight is a very appealing renewable energy technology. The key requirement to allow this technology to be adopted is finding an electrically suitable material. This research program takes an innovative approach by combining state of the art computational techniques to engineer advanced ceramics having sophisticated electrical signatures. These ceramics will be synthesized in a partner experimental program to gauge their efficiencies for hydrogen production. The program will provide the foundation for a renewable energy technology that will provide clean energy and energy independence for Australia.Read moreRead less
Supercritical Highly-Integrated and Modular, Continuous Solid-Catalysed Biodiesel Production from Plant and Animal Feedstocks. We propose to revolutionise biodiesel production by creating a new reactor type and associated process that allows the production of 160,000 tonnes of biodiesel a year in a supercritical reactor volume of one cubic metre after scale-up. In this project, we propose to design the appropriate catalysts and pilot plant to study our ideas which should lead to a highly effici ....Supercritical Highly-Integrated and Modular, Continuous Solid-Catalysed Biodiesel Production from Plant and Animal Feedstocks. We propose to revolutionise biodiesel production by creating a new reactor type and associated process that allows the production of 160,000 tonnes of biodiesel a year in a supercritical reactor volume of one cubic metre after scale-up. In this project, we propose to design the appropriate catalysts and pilot plant to study our ideas which should lead to a highly efficient and sustainable system that offers a real alternative to current mineral oil-based technologies.Read moreRead less
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
Designing New Visible-light Active Photocatalysts for Efficient CO2 Reduction. The increasing concern over Climate Change has triggered great efforts in developing new CO2 capture technologies. The outcomes of this program will lead to a new class of photocatalysts that underpin the development of economical CO2 reduction for clean fuel production using sunlight. Such technologies will speed up the transition of Australian environmental and energy industries from fossil fuel economy to renewable ....Designing New Visible-light Active Photocatalysts for Efficient CO2 Reduction. The increasing concern over Climate Change has triggered great efforts in developing new CO2 capture technologies. The outcomes of this program will lead to a new class of photocatalysts that underpin the development of economical CO2 reduction for clean fuel production using sunlight. Such technologies will speed up the transition of Australian environmental and energy industries from fossil fuel economy to renewable energy economy. The research program will contribute significantly to knowledge advancement in nanomaterials, surface chemistry, and photochemistry, and falls in the National Research Priority Area of 'Environmentally Sustainable Australia' addressing the key goals of Climate Change and low emission energy supply.Read moreRead less
Medium voltage DC: Enabling active, flexible and efficient power networks. Medium voltage DC (MVDC) systems promise to offer the required flexibility in next generation active electricity networks to enable higher renewable energy integration, take advantage of more readily available energy storage, and manifest simpler control and operation. The intended outcome of the Project is to address the challenge of developing MVDC networks via an integrated and cohesive approach, from the initial desig ....Medium voltage DC: Enabling active, flexible and efficient power networks. Medium voltage DC (MVDC) systems promise to offer the required flexibility in next generation active electricity networks to enable higher renewable energy integration, take advantage of more readily available energy storage, and manifest simpler control and operation. The intended outcome of the Project is to address the challenge of developing MVDC networks via an integrated and cohesive approach, from the initial design of the individual power electronics converters, right up to network design and "system of systems" implementation. The outcomes of the Project will provide clear pathways and solutions for new topologies, facilitating Australia’s and the world’s transition to next generation electricity infrastructure.Read moreRead less
Developing a competitive H2 production suystem based on engineered cells of green algae. The depletion of oil reserves and the effects of global warming make the development of new, clean, sustainable fuel production systems critically important. This frontier technology has the ability to drive solar-powered hydrogen production from water. Extending the system to marine algal cells provides the possibility of coupling clean fuel production with water purification as the product of H2 combustion ....Developing a competitive H2 production suystem based on engineered cells of green algae. The depletion of oil reserves and the effects of global warming make the development of new, clean, sustainable fuel production systems critically important. This frontier technology has the ability to drive solar-powered hydrogen production from water. Extending the system to marine algal cells provides the possibility of coupling clean fuel production with water purification as the product of H2 combustion is pure water. We have already engineered green algae that produce H2 from H2O at a rate ~1000% higher than the Wild-type and through this project will incorporate further improvements with the aim of developing a competitive H2 production system.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