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Reinforced crumbed rubber concrete for residential construction. Reinforced crumbed rubber concrete for residential construction. This project aims to use crumb rubber from used tyres to replace natural sand aggregate in concrete used in housing construction. Globally, very few of the millions of tyres discarded annually are recycled, while natural sand used in concrete is being depleted. This project intends to provide the tyre industry with a viable market for end of life tyres, and the premix ....Reinforced crumbed rubber concrete for residential construction. Reinforced crumbed rubber concrete for residential construction. This project aims to use crumb rubber from used tyres to replace natural sand aggregate in concrete used in housing construction. Globally, very few of the millions of tyres discarded annually are recycled, while natural sand used in concrete is being depleted. This project intends to provide the tyre industry with a viable market for end of life tyres, and the premix concrete industry with a “green” product for the residential construction market. Expected benefits include the increased use of a waste resource (used tyres), reduced use of a scarce natural resource (sand), and the development of an economic but green alternative concrete option for residential builders and owners.Read moreRead less
Development of controllable and durable green concretes through the understanding of feedstock chemistry and geopolymerisation mechanism. This project will develop key knowledge and technologies towards in geopolymer applications, evolving the current polluted cement/concrete industry into a much greener industry with up to 80 per cent lower carbon emissions. Successful completion of this project will keep Australia at the leading frontier of green technology and green industry.
Discovery Early Career Researcher Award - Grant ID: DE170101070
Funder
Australian Research Council
Funding Amount
$345,124.00
Summary
Enhanced durability of geopolymers through phase engineering. This project aims to research geopolymer phases, their formation thermodynamics and formation kinetics and stability. Alkali-activated (geopolymer) binders and concretes are low-carbon dioxide alternatives to Portland cements and concretes, and ensuring their durability will enable the implementation of this greenhouse-friendly technology in industry. This project will develop a phase engineering approach to help industry manufacture ....Enhanced durability of geopolymers through phase engineering. This project aims to research geopolymer phases, their formation thermodynamics and formation kinetics and stability. Alkali-activated (geopolymer) binders and concretes are low-carbon dioxide alternatives to Portland cements and concretes, and ensuring their durability will enable the implementation of this greenhouse-friendly technology in industry. This project will develop a phase engineering approach to help industry manufacture high-durability green concrete, create a billion-dollar business, and provide safe and reliable construction products.Read moreRead less
Development of an anaerobic bioprocess for hexachlorobenzene destruction. This project will develop a biological process for destruction of a 10,000 tonne hexachlorobenzene stockpile in Sydney Australia. Development of a low energy bioprocess based on recently isolated bacteria will put an end to this ongoing health, environmental and industrial legacy issue and build expertise in bioprocessing for future applications.
Manufacturing high value carbon products and chemicals from spent tyres. Manufacturing high value carbon products and chemicals from spent tyres. This project aims to develop an innovative and integrated thermochemical process for use of spent tyres. Australia disposes of more than 400,000 tonnes of spent tyres per annum in landfills, stockpiles and random dumping, incurring significant environmental hazards, serious health risks and wastage of resources. This research is expected to result in n ....Manufacturing high value carbon products and chemicals from spent tyres. Manufacturing high value carbon products and chemicals from spent tyres. This project aims to develop an innovative and integrated thermochemical process for use of spent tyres. Australia disposes of more than 400,000 tonnes of spent tyres per annum in landfills, stockpiles and random dumping, incurring significant environmental hazards, serious health risks and wastage of resources. This research is expected to result in new knowledge of the thermal behaviour of rubber and new techniques to identify, extract and use high value carbon materials and chemicals from thermochemical processing of spent tyres. The research outcomes are expected to provide a technological foundation for an emerging industry for environmentally responsible and economically self-sustaining use of spent tyres.Read moreRead less
Identifying the risks and assessing the impacts of marine debris on sea turtles in Australian waters. Marine debris is a significant global issue, with the amount of waste released into our oceans growing exponentially each year. Preliminary work in Australia has shown that entanglement and ingestion of debris is a serious threat to endangered sea turtles. The project aims to determine the impact debris is having and provide ways to reduce this impact.
Development of Viable Geopolymer. This project aims to improve the manufacture of geopolymer. Geopolymer (‘green cement’) is produced by alkali activation of fly ash and is a sustainable, low carbon dioxide alternative to conventional cement. Evaluation of raw materials and ensuring reliable performance are critical issues in geopolymer manufacture. The project aims to understand the geopolymerisation process and the behaviour of fly ash and activator in the process. It plans to establish a reac ....Development of Viable Geopolymer. This project aims to improve the manufacture of geopolymer. Geopolymer (‘green cement’) is produced by alkali activation of fly ash and is a sustainable, low carbon dioxide alternative to conventional cement. Evaluation of raw materials and ensuring reliable performance are critical issues in geopolymer manufacture. The project aims to understand the geopolymerisation process and the behaviour of fly ash and activator in the process. It plans to establish a reactivity index to quantitatively evaluate fly ash and match it with activator to achieve efficient activation with predictable properties. The project is expected to result in a scientific tool to assess fly ash suitability and a method to design and produce viable geopolymers.Read moreRead less
On-water catalysis for green chemistry. The on-water effect enables acid-catalysed organic reactions to be conducted as emulsions in water, instead of dissolved in expensive and often toxic organic solvents. This research will define the scope and limitations of the effect, allowing predictions about the extent of its applicability in green chemistry using water and renewable feedstocks.