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Linkage Infrastructure, Equipment And Facilities - Grant ID: LE130100051
Funder
Australian Research Council
Funding Amount
$200,000.00
Summary
Fabrication and characterisation facilities for lithium rechargeable batteries and supercapacitors. The facility, unlike any currently existing in Australia, will help researchers studying electrodes and cells at a high level. It will provide a new path to high-level research performance and will significantly enhance Australia’s research capability to bring new materials/technologies under development closer to application.
Persuading tourists to use fewer natural resources when on holidays. This project aims to bring sustainable reductions in resource use to mainstream tourism, one of the world’s largest, most resource-intensive sectors. The project challenges the view that pro-environmental attitudes are a pre-requisite for pro-environmental behaviours, and in doing so promotes redesigning social practices in accommodation to achieve greater sustainability outcomes. Using an experimental design, this project will ....Persuading tourists to use fewer natural resources when on holidays. This project aims to bring sustainable reductions in resource use to mainstream tourism, one of the world’s largest, most resource-intensive sectors. The project challenges the view that pro-environmental attitudes are a pre-requisite for pro-environmental behaviours, and in doing so promotes redesigning social practices in accommodation to achieve greater sustainability outcomes. Using an experimental design, this project will provide empirical evidence on the efficacy of combining smart technology and interpersonal communication into a smart-service intervention to change guest resource use. The desired outcomes will be less resource consumption, greater guest satisfaction, and an evidence-based approach to a greener mainstream economy.Read moreRead less
Industrial Transformation Research Hubs - Grant ID: IH200100010
Funder
Australian Research Council
Funding Amount
$5,000,000.00
Summary
ARC Research Hub for Transformation of Reclaimed Waste Resources to Engineered Materials and Solutions for a Circular Economy. This project aims to create new knowledge to reduce waste going to landfills and transform reclaimed waste into new materials for use in construction and other manufacturing sectors. It integrates multisector input and multidisciplinary academic research to address ten challenging waste streams. Expected outcomes are smart materials, socio-technical change, accelerated t ....ARC Research Hub for Transformation of Reclaimed Waste Resources to Engineered Materials and Solutions for a Circular Economy. This project aims to create new knowledge to reduce waste going to landfills and transform reclaimed waste into new materials for use in construction and other manufacturing sectors. It integrates multisector input and multidisciplinary academic research to address ten challenging waste streams. Expected outcomes are smart materials, socio-technical change, accelerated testing methods, predictive modeling, circular life cycle costing and a trusted evidence base. Outcomes will lead to commercial benefits as well as jobs and a significant contribution to addressing the pressing environmental impacts of waste production, management, and re-use.Read moreRead less
Understanding how local and regional accessibility are associated with active travel, and related health and economic impacts. Exercise and walking are vital for a healthy lifestyle and wellbeing. The accessibility and ’walkability’ of where one lives and works is key to supporting physical activity. Consequently, public health practitioners, urban planners and the transport sector face a common strategic challenge; shifting people from private vehicles to active forms of transport. This project ....Understanding how local and regional accessibility are associated with active travel, and related health and economic impacts. Exercise and walking are vital for a healthy lifestyle and wellbeing. The accessibility and ’walkability’ of where one lives and works is key to supporting physical activity. Consequently, public health practitioners, urban planners and the transport sector face a common strategic challenge; shifting people from private vehicles to active forms of transport. This project aims to model the health and economic impacts of the ease of: walking and cycling within neighbourhoods; and travelling across wider geographical areas on time spent walking and cycling for transport among both adults and children. This project aims to enable the research team to maximise the opportunities the environment provides for both positive health and well-being in Australia.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
Integrated solar to chemical production and membrane concentration system. The efficient conversion of low-cost raw materials to high-value chemicals using solar energy has been a long sought-after goal. This project aims to create an integrated photoreactor and membrane separation system for efficient photocatalytic water splitting. The integrated system will efficiently produce hydrogen and ultrapure hydrogen peroxide, a critical and costly reagent used in the semiconductor and solar panel man ....Integrated solar to chemical production and membrane concentration system. The efficient conversion of low-cost raw materials to high-value chemicals using solar energy has been a long sought-after goal. This project aims to create an integrated photoreactor and membrane separation system for efficient photocatalytic water splitting. The integrated system will efficiently produce hydrogen and ultrapure hydrogen peroxide, a critical and costly reagent used in the semiconductor and solar panel manufacturing industries. The integrated system addresses current challenges in the production of high-quality hydrogen peroxide and demonstrates a practical solar-to-chemical process with economic benefits. It also advances knowledge in the fields of nanomaterials engineering, photocatalytic devices, and membrane technology.Read moreRead less
Low cost on-site on-demand cyanide production for gold mining. This project seeks a breakthrough in providing a new, low cost, low environmental impact approach for synthesis of on-site, on-demand cyanide for gold extraction. This will facilitate economic processing of lower grade ores and enhance resource life. Also, avoiding transport of bulk cyanide to remote mine sites will improve community safety.
Understanding the role of nanoparticles in water based lubrication. This project seeks to understand the role of nanoparticles in the lubrication of hot strip rolling and then to develop novel nano-additive water-based lubricants to solve a long-standing issue for the steel-making industry. Lubrication significantly affects the surface quality of hot-rolled strips, roll wear and energy consumption in the steel-making industry. Currently, oil-based lubricants are used. However, their lubricant ef ....Understanding the role of nanoparticles in water based lubrication. This project seeks to understand the role of nanoparticles in the lubrication of hot strip rolling and then to develop novel nano-additive water-based lubricants to solve a long-standing issue for the steel-making industry. Lubrication significantly affects the surface quality of hot-rolled strips, roll wear and energy consumption in the steel-making industry. Currently, oil-based lubricants are used. However, their lubricant effect is considerably reduced by the use of high pressure cooling water, and the waste discharge is of environmental concern. Successful outcomes for the project are expected to improve product quality and reduce resource use.Read moreRead less
Mathematical and computational analysis of ship wakes. This project aims to develop mathematical and computational tools to compute the energy in a given ship wake and to determine a range of properties of a ship by taking simple measurements of the water height as the ship travels past. The expected outcomes of this project include a suite of algorithms that back-calculate the hull shape and operating conditions of a moving ship given only the surface height data measured at a single point. The ....Mathematical and computational analysis of ship wakes. This project aims to develop mathematical and computational tools to compute the energy in a given ship wake and to determine a range of properties of a ship by taking simple measurements of the water height as the ship travels past. The expected outcomes of this project include a suite of algorithms that back-calculate the hull shape and operating conditions of a moving ship given only the surface height data measured at a single point. These results should have direct implications for measuring damage to coastal zones by ship wakes and for surveillance of shipping channels.Read moreRead less
Designing new layered materials for efficient solar energy conversion. This project will address the important material need for efficient solar energy conversion and environmental purification. These advanced materials will provide innovative solar utilisation technologies for economical water purification, self-cleaning coatings, and improved process for hydrogen production.