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Development of High Performance Ceramic Based Thermoelectric Materials for Power Regeneration Applications. Thermoelectric materials offer an opportunity for economic recovery of the waste heat from exhaust gases to reduce operational costs and CO2 emissions. An increase in thermoelectric conversion efficiency of a few percent, in power production, would translate to significant cost saving on a national scale, which is about several billions of Australian dollars worth of products per year in ....Development of High Performance Ceramic Based Thermoelectric Materials for Power Regeneration Applications. Thermoelectric materials offer an opportunity for economic recovery of the waste heat from exhaust gases to reduce operational costs and CO2 emissions. An increase in thermoelectric conversion efficiency of a few percent, in power production, would translate to significant cost saving on a national scale, which is about several billions of Australian dollars worth of products per year in this area alone. Energy efficiency and clean, renewable energy will mean a stronger economy, a cleaner environment and greater energy independence for Australia. Success of this program will facilitate the development of thermoelectric materials and renewable energy technologies, which have enormous national and international markets.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
Novel Concept for Wastewater Treatment with Integrated Power Production based on Microbial Fuel Cells. Microbial fuel cells are a novel process concept that enables organics, such as sugars, to be converted directly to electricity with the help of naturally occurring microorganisms. This technology has particularly exciting applications in the environmental field, namely in wastewater treatment. It offers significant benefits over current processes, particularly reduced energy consumption or eve ....Novel Concept for Wastewater Treatment with Integrated Power Production based on Microbial Fuel Cells. Microbial fuel cells are a novel process concept that enables organics, such as sugars, to be converted directly to electricity with the help of naturally occurring microorganisms. This technology has particularly exciting applications in the environmental field, namely in wastewater treatment. It offers significant benefits over current processes, particularly reduced energy consumption or even electricity generation and lower sludge production. This project will demonstrate the performance and application of such microbial fuel cells for the removal of organic and nitrogen-based pollutants from wastewater. If successful, this technology offers major advances in both water treatment and renewable energy aspects.Read moreRead less
Controlled synthesis of well-aligned single crystalline one-dimensional semiconducting nanomaterials for energy application. This proposal is at the forefront of a number of important fields, and therefore the outcomes are expected to be of great interest to a broad spectrum of industry sectors, including advanced materials, nanotechnology, and sustainable energy. The novel synthetic methods and the targeting material system could lead to advanced materials for energy application. The outcomes o ....Controlled synthesis of well-aligned single crystalline one-dimensional semiconducting nanomaterials for energy application. This proposal is at the forefront of a number of important fields, and therefore the outcomes are expected to be of great interest to a broad spectrum of industry sectors, including advanced materials, nanotechnology, and sustainable energy. The novel synthetic methods and the targeting material system could lead to advanced materials for energy application. The outcomes of this project will place Australian researchers among the pioneering groups in this area and will benefit several major technology-related fields including materials manufacture technology and sustainable energy.Read moreRead less
Designing integrated photocatalytic systems for simultaneous clean energy generation and water remediation. The proposal addresses the core issues of energy and water, two highly critical resources in Australia as well as worldwide. Utilising our geographically-abundant solar energy and through designing novel photocatalytic systems, the proposed research provides an ultimately clean solution by efficiently harnessing and converting the solar energy to hydrogen while remediating wastewater. Give ....Designing integrated photocatalytic systems for simultaneous clean energy generation and water remediation. The proposal addresses the core issues of energy and water, two highly critical resources in Australia as well as worldwide. Utilising our geographically-abundant solar energy and through designing novel photocatalytic systems, the proposed research provides an ultimately clean solution by efficiently harnessing and converting the solar energy to hydrogen while remediating wastewater. Given the high intensity and consistent solar output in Australia, such technology provides an almost ideal and sustainable outcome in terms of clean energy and water supply. Success in this area will place Australian researchers at the forefront of practical and functional photocatalytic technologiesRead moreRead less
Thermal structure and evolution of the Australian continent. Australia contains 40% of the world's known uranium resources. Uranium, with thorium and potassium, are heat-producing elements which affect the way temperature varies within the Earth. Outcomes from this project will lead to a better understanding of the potential for geothermal energy in Australia and provide a framework for assessing Australia's uranium resource. Understanding the crustal thermal regime is also fundamental to our kn ....Thermal structure and evolution of the Australian continent. Australia contains 40% of the world's known uranium resources. Uranium, with thorium and potassium, are heat-producing elements which affect the way temperature varies within the Earth. Outcomes from this project will lead to a better understanding of the potential for geothermal energy in Australia and provide a framework for assessing Australia's uranium resource. Understanding the crustal thermal regime is also fundamental to our knowledge of many earth processes. The project will enhance Australia's international research standing, provide training for an early career researcher and contribute to the development of an environmentally sustainable Australia, a National research priority.Read moreRead less
Novel nanostructured InVO4 and related vanadates photocatalysts for water splitting under visible light irradiation. This proposal is at the forefront of a number of important fields, and therefore the outcomes are expected to be of great interest to a broad spectrum of industry sectors, including sustainable energy supply, solar energy applications, and environmental purification. This novel material system could lead to highly efficient photocatalysts for application in solar energy to split w ....Novel nanostructured InVO4 and related vanadates photocatalysts for water splitting under visible light irradiation. This proposal is at the forefront of a number of important fields, and therefore the outcomes are expected to be of great interest to a broad spectrum of industry sectors, including sustainable energy supply, solar energy applications, and environmental purification. This novel material system could lead to highly efficient photocatalysts for application in solar energy to split water to produce hydrogen. The outcomes of this project will position Australian researchers among the pioneering groups in this area and will benefit several major technology-related fields including sustainable energy supply, environmental protection engineering, and materials manufacture technology.Read moreRead less
Charge transfer mechanism in 3-dimensional pore-solid nanoarchitectures for electrochemical systems. This project represents a significant scientific and economic advance for Australia because: 1) it is likely to create advanced energy storage and conversion devices, with excellent working efficiency and kinetics, which will induce dramatic improvements to our environment 2) the project will establish local expertise and scientific know-how on electrochemical energy storage and conversion system ....Charge transfer mechanism in 3-dimensional pore-solid nanoarchitectures for electrochemical systems. This project represents a significant scientific and economic advance for Australia because: 1) it is likely to create advanced energy storage and conversion devices, with excellent working efficiency and kinetics, which will induce dramatic improvements to our environment 2) the project will establish local expertise and scientific know-how on electrochemical energy storage and conversion systems, which will place Australia at the forefront of this important area of lithium ion battery and PEM fuel cells; 3)relevant Australian enterprises in electric vehicle and portable device manufacturing will reap the benefits of these discoveries.
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A HYBRID INTEGRATED SYSTEM FOR MUNICIPAL SOLID WASTE TREATMENT AND POWER GENERATION. The management of solid wastes is a major global environmental issue and the current practice of landfilling is not a sustainable solution. Biogasification of the organic fraction provides not only a means of waste treatment but also generates a source of energy in the form methane but current technologies are expensive due to the long degradation times. In this project we investigate an innovative waste tr ....A HYBRID INTEGRATED SYSTEM FOR MUNICIPAL SOLID WASTE TREATMENT AND POWER GENERATION. The management of solid wastes is a major global environmental issue and the current practice of landfilling is not a sustainable solution. Biogasification of the organic fraction provides not only a means of waste treatment but also generates a source of energy in the form methane but current technologies are expensive due to the long degradation times. In this project we investigate an innovative waste treatment system that will cut down the time required for processing wastes by a factor of 10 with considerable economic benefit. We will optimise the integration of this treatment system with a hybrid power generation system that utilises other renewable energy sources like solar and wind energy to deliver quality power at minimal cost.Read moreRead less
Present-Day Crustal Stress Field of North-Eastern Australia. The key project benefit is to advance fundamental understanding of crustal dynamics in NE Australia and thus Australia as a whole. The project will improve our knowledge of both the nature and sources of the present-day crustal stresses in NE Australia. The project has implications for seismicity and neotectonics in NE Australia. Furthermore, the project has significant implications for both hydrocarbon and hot dry rock geothermal ener ....Present-Day Crustal Stress Field of North-Eastern Australia. The key project benefit is to advance fundamental understanding of crustal dynamics in NE Australia and thus Australia as a whole. The project will improve our knowledge of both the nature and sources of the present-day crustal stresses in NE Australia. The project has implications for seismicity and neotectonics in NE Australia. Furthermore, the project has significant implications for both hydrocarbon and hot dry rock geothermal energy exploration and development.Read moreRead less