Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453629
Funder
Australian Research Council
Funding Amount
$322,077.00
Summary
Integrated Combustion Research Facility for Biomass Derived Fuels. Bio-mass derived fuels are gaining in importance because they can contribute to solving the problems arising from the world wide decline in the reserve to production ratio of crude oil, the emission of greenhouse gases and energy security. In Australia they can also assist in mitigating dry-land salinity by increasing the viability of large-scale plantation of locally indigenous trees. However significant technical and political ....Integrated Combustion Research Facility for Biomass Derived Fuels. Bio-mass derived fuels are gaining in importance because they can contribute to solving the problems arising from the world wide decline in the reserve to production ratio of crude oil, the emission of greenhouse gases and energy security. In Australia they can also assist in mitigating dry-land salinity by increasing the viability of large-scale plantation of locally indigenous trees. However significant technical and political issues remain to be addressed before this potential can be realised. The Integrated Combustion Research Facility for Biomass Derived Fuels to be established by this grant will provide the necessary infrastructure to address these issues.Read moreRead less
Heat transfer processes in evacuated tubular solar absorbers. The aim of this project is to improve the understanding of the complex heat transfer processes in evacuated tubular solar water heaters. This project will develop thermal and hydrodynamic models for advanced solar water heaters incorporating evacuated tubular absorbers and will assess the accuracy of the models through a series of outdoor experiments on prototype evacuated tubular solar water heaters. The outcomes will lead to the d ....Heat transfer processes in evacuated tubular solar absorbers. The aim of this project is to improve the understanding of the complex heat transfer processes in evacuated tubular solar water heaters. This project will develop thermal and hydrodynamic models for advanced solar water heaters incorporating evacuated tubular absorbers and will assess the accuracy of the models through a series of outdoor experiments on prototype evacuated tubular solar water heaters. The outcomes will lead to the design and manufacturing of more efficient solar collectors, which can greatly benefit both Australian domestic and export markets.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882833
Funder
Australian Research Council
Funding Amount
$120,000.00
Summary
Advanced infrared imaging facility for micro to macro systems. This state-of-the-art infrared imaging equipment will provide significant benefits towards research and development in a wide variety of important areas such as: green house gas reduction through efficient and clean energy production and usage, using solar thermal and solar photovoltaic energy; understanding fire propagation in buildings, and efficiently growing stem cells. This equipment will help maintain Australia's position as a ....Advanced infrared imaging facility for micro to macro systems. This state-of-the-art infrared imaging equipment will provide significant benefits towards research and development in a wide variety of important areas such as: green house gas reduction through efficient and clean energy production and usage, using solar thermal and solar photovoltaic energy; understanding fire propagation in buildings, and efficiently growing stem cells. This equipment will help maintain Australia's position as a leader in these fields, and thus attract international customers to research and development services in rapidly growing markets such as alternative/renewable energy and biotechnology.Read moreRead less
The Effects of Pyrolysis Conditions on Combustion and Gasification Reactivities of Biomass Chars and the Quality of Their Ash. Considerable efforts are being made to minimise the environmental impacts of fossil fuels by utilising renewable energy sources like biomass. Many of the challenges associated with the thermal conversion of biomass relate to its char characteristics. The aim of this project is to gain a fundamental understanding about the impact of reaction conditions during the pyrolyti ....The Effects of Pyrolysis Conditions on Combustion and Gasification Reactivities of Biomass Chars and the Quality of Their Ash. Considerable efforts are being made to minimise the environmental impacts of fossil fuels by utilising renewable energy sources like biomass. Many of the challenges associated with the thermal conversion of biomass relate to its char characteristics. The aim of this project is to gain a fundamental understanding about the impact of reaction conditions during the pyrolytic stage on the structural and compositional transformations of the resultant char, its combustion and gasification reactivities, and the release of inorganic matter and ash formation. This holistic and integrated approach should reveal the underlying science necessary to support existing and future biomass use.Read moreRead less
Combustion Characteristics of Biomass Chars in Pressurised Circulating Fluidised Bed Reactors. The development of new, cleaner methods of electricity generation, such as biomass-based integrated gasification combined-cycles and hybrid-cycle pressurised fluidised-bed combustion, have highlighted the need for a greater understanding of the combustion characteristics of biomass chars at high pressures and temperatures. The aim of this project is to gain a clearer understanding of the underlying mec ....Combustion Characteristics of Biomass Chars in Pressurised Circulating Fluidised Bed Reactors. The development of new, cleaner methods of electricity generation, such as biomass-based integrated gasification combined-cycles and hybrid-cycle pressurised fluidised-bed combustion, have highlighted the need for a greater understanding of the combustion characteristics of biomass chars at high pressures and temperatures. The aim of this project is to gain a clearer understanding of the underlying mechanisms that control the combustion of biomass chars in pressurised circulating fluidised-bed (PCFB) reactors. The fundamental knowledge gained in this project will have immediate practical applications as modern PCFB reactors are considered to be the most suitable systems for the combustion of biomass char particles.Read moreRead less