Nanoengineered, Encapsulated Catalysts from Fly Ash Waste. This project aims to deliver advanced catalysts and novel catalyst synthesis methods from the use of iron-rich fly ash, an otherwise abundant valueless waste with projected steady growth across Australia and globally. The as-synthesised catalysts are expected to be applicable to and exhibit excellent activity in the production of green hydrogen and renewable bio-fuels from lignocellulosic waste. These efforts are significant and benefici ....Nanoengineered, Encapsulated Catalysts from Fly Ash Waste. This project aims to deliver advanced catalysts and novel catalyst synthesis methods from the use of iron-rich fly ash, an otherwise abundant valueless waste with projected steady growth across Australia and globally. The as-synthesised catalysts are expected to be applicable to and exhibit excellent activity in the production of green hydrogen and renewable bio-fuels from lignocellulosic waste. These efforts are significant and beneficial in restoring the manufacturing capability of Australian industry, driving Australian industry towards the development of a circular economy for the appropriate management of solid waste, as well as for a seamless introduction of renewable and clean energy sources to address the pressing climate change.Read moreRead less
Regeneration of High Value-Added Materials from Spent Lithium-Ion Batteries. This project aims to develop scalable processing techniques for the regeneration of cathode materials and the production of high-purity alumina and graphene from spent lithium-ion batteries. The techniques reduce the cost and time of the processing of degraded cathode materials and increase the value of the spent battery materials (e.g., metallic aluminum and graphite) by converting them into high value-added specialty ....Regeneration of High Value-Added Materials from Spent Lithium-Ion Batteries. This project aims to develop scalable processing techniques for the regeneration of cathode materials and the production of high-purity alumina and graphene from spent lithium-ion batteries. The techniques reduce the cost and time of the processing of degraded cathode materials and increase the value of the spent battery materials (e.g., metallic aluminum and graphite) by converting them into high value-added specialty chemicals. The outcomes and further technology adoptions will extend the capacity of the Partner Organisation for producing specialty battery materials. The outcomes could help Australia’s battery industry switch to a more diversified pathway, which benefits the economic development of Australia in a long term.Read moreRead less
Mid-Career Industry Fellowships - Grant ID: IM230100030
Funder
Australian Research Council
Funding Amount
$855,472.00
Summary
Transforming urban water management through technology translation . Through university and industry partnership, this project will develop and demonstrate, at pilot scale, a highly innovative technology that manufactures an iron salt, FeCO3, for use in urban water management, and simultaneously removes CO2, H2S and NH3 from biogas thus achieving biogas valorisation. This project will demonstrate the effectiveness of FeCO3 produced, in infrastructure protection, nutrients removal and recycling, ....Transforming urban water management through technology translation . Through university and industry partnership, this project will develop and demonstrate, at pilot scale, a highly innovative technology that manufactures an iron salt, FeCO3, for use in urban water management, and simultaneously removes CO2, H2S and NH3 from biogas thus achieving biogas valorisation. This project will demonstrate the effectiveness of FeCO3 produced, in infrastructure protection, nutrients removal and recycling, and capacity enhancement of wastewater treatment plants. The outcomes of this project will lead to the adoption and commercialisation of the technology, which will substantially enhance the sustainability of urban water management in Australia, and also create jobs in, and bring incomes to Australia. Read moreRead less
Industrial Transformation Research Hubs - Grant ID: IH230100011
Funder
Australian Research Council
Funding Amount
$4,955,854.00
Summary
ARC Research Hub for Value-Added Processing of Underutilised Carbon Waste. This Hub aims to advance upcycling technologies and associated regulatory and social engagement for processing underutilised carbon waste within Australia. Its anticipated goal is to deliver value-added products, and improved technology readiness levels for full exploitation of carbon wastes from agriculture, tyres and plastics. It will also train a large talent pool providing interdisciplinary knowledge and entrepreneuri ....ARC Research Hub for Value-Added Processing of Underutilised Carbon Waste. This Hub aims to advance upcycling technologies and associated regulatory and social engagement for processing underutilised carbon waste within Australia. Its anticipated goal is to deliver value-added products, and improved technology readiness levels for full exploitation of carbon wastes from agriculture, tyres and plastics. It will also train a large talent pool providing interdisciplinary knowledge and entrepreneurial skills for post-hub commercialisation. The Hub will benefit rural Australia by transforming local job markets and manufacturing capability. Ultimately, this Hub will make a significant contribution towards achieving Australia’s National Waste Action Plan goal by 2030, and a circular economy for a sustainable future. Read moreRead less