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A fundamental study of milk ultrafiltration. The Dairy Industry is one of Australia's largest domestic and export industries. The fundamental knowledge and models developed in this project will be used to optimise dairy membrane processing. This will reduce water and energy use to improve the global competitiveness and reduce the environmental impact of the Australian Dairy Industry.
Encapsulation beyond microplastics. This proposal seeks to provide a roadmap for the development and application of a new generation of microcapsules, based around sustainable, plastic-free technology. Renewable resources such as cellulose particles will be combined with innocuous inorganic binders in order to encapsulate valuable cargoes for delivery with potential applications in agrochemical delivery and consumer care products. The mechanical properties of the capsules will be measured and mo ....Encapsulation beyond microplastics. This proposal seeks to provide a roadmap for the development and application of a new generation of microcapsules, based around sustainable, plastic-free technology. Renewable resources such as cellulose particles will be combined with innocuous inorganic binders in order to encapsulate valuable cargoes for delivery with potential applications in agrochemical delivery and consumer care products. The mechanical properties of the capsules will be measured and modelled, indicating how they behave in processing and use, and enabling their tailoring to release their contents at the right time. Surface modification of the capsules will be used to maximise their binding to materials of interest, such as clothes fibres in laundry products.Read moreRead less
Smart Polymer Hydrogels for Simultaneous Waste Heat Utilisation and Wastewater Treatment for Sustainable Manufacturing. This project aims to develop dual-functionality, temperature-responsive polymer hydrogels as draw agents for continuous, forward osmosis wastewater treatment processes. It intends to use low–and-medium temperature waste heat as a green input into the process and thus significantly reduce the costs of wastewater treatment, and fresh water consumption, whilst effectively utilisin ....Smart Polymer Hydrogels for Simultaneous Waste Heat Utilisation and Wastewater Treatment for Sustainable Manufacturing. This project aims to develop dual-functionality, temperature-responsive polymer hydrogels as draw agents for continuous, forward osmosis wastewater treatment processes. It intends to use low–and-medium temperature waste heat as a green input into the process and thus significantly reduce the costs of wastewater treatment, and fresh water consumption, whilst effectively utilising waste heat generated in the manufacturing industry. The outcomes of this research aim to provide a unique opportunity for Australian researchers to become world leaders in the rapidly-emerging, energy-efficient forward osmosis technology which is very relevant not only to wastewater treatment, but also to desalination.Read moreRead less
Hybrid Construction using Seawater, Sea Sand and Fibre Reinforced Polymer. Conventional concrete is made using fresh water and river sand. This project aims to develop a novel hybrid construction system using seawater, sea sand and industrial waste, together with fibre reinforced polymer (FRP) and stainless steel (SS), for use in civil engineering infrastructure in marine environments. To date there has been little work to understand the degradation kinetics and mechanisms of FRP and SS in such ....Hybrid Construction using Seawater, Sea Sand and Fibre Reinforced Polymer. Conventional concrete is made using fresh water and river sand. This project aims to develop a novel hybrid construction system using seawater, sea sand and industrial waste, together with fibre reinforced polymer (FRP) and stainless steel (SS), for use in civil engineering infrastructure in marine environments. To date there has been little work to understand the degradation kinetics and mechanisms of FRP and SS in such complicated corrosive environments. The project plans to provide a design methodology to ensure confidence in the safety of critical infrastructure such as bridges, highways, dams, airports, offshore piles and artificial islands. The proposed system would save fresh water and reduce damage to river ecosystems, carbon dioxide emissions and construction costs.Read moreRead less