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Numerical Modelling and Experimental Studies to Design and Engineer Nanoparticulate Systems for Bioapplications. Project outcomes will enhance Australia's reputation for scientific innovation in the field of bio-nanotechnology. The project will expand the knowledge base in this area and increase Australia's international profile in research on nanomaterials for bio-related applications. The project partners UNSW and Australian company (Minomic), integrating their skills, expertise and facilities ....Numerical Modelling and Experimental Studies to Design and Engineer Nanoparticulate Systems for Bioapplications. Project outcomes will enhance Australia's reputation for scientific innovation in the field of bio-nanotechnology. The project will expand the knowledge base in this area and increase Australia's international profile in research on nanomaterials for bio-related applications. The project partners UNSW and Australian company (Minomic), integrating their skills, expertise and facilities to address current limitations in understanding the stability of magnetic nanoparticles in biological fluids. The Australian partners will play a leading role in commercializing new applications for functionalized magnetic nanoparticles. The project will provide an excellent multidisciplinary research environment and training for early career researchers.Read moreRead less
Membrane Fouling in Submerged Hollow Fibre Membrane Bioreactor Systems: Theory, Modelling and Fouling Control. The outcomes of this project will provide fundamental insights into the mechanisms of fouling in submerged hollow fibre membrane bioreactors (SHFMBR) and will provide a sound base for optimization of design and operation of SHFMBR systems. Given the crucial role of the SHFMBR in wastewater treatment and water reuse, this project will significantly contribute to the national priority are ....Membrane Fouling in Submerged Hollow Fibre Membrane Bioreactor Systems: Theory, Modelling and Fouling Control. The outcomes of this project will provide fundamental insights into the mechanisms of fouling in submerged hollow fibre membrane bioreactors (SHFMBR) and will provide a sound base for optimization of design and operation of SHFMBR systems. Given the crucial role of the SHFMBR in wastewater treatment and water reuse, this project will significantly contribute to the national priority area of 'an environmentally sustainable Australia (water-a critical resource)'. In addition, the outcomes of this project on quantitative simulation of the gel/cake structure and resulting transport phenomena will promote Australia's reputation for high quality fundamental and applied research in the area of membrane filtration. Read moreRead less
Lowering membrane fouling by matching pre-treatment to membrane type. Delivery of potable and recycled water to communities and industry increasingly uses membrane treatment to ensure high standards of water quality, particularly as water scarcity leads to the use of poor quality water sources. Fouling of membranes occurs as water is treated, adding expense and complexity to the process. Reducing fouling will lower the cost of water treatment and improve the economics of treating water in smal ....Lowering membrane fouling by matching pre-treatment to membrane type. Delivery of potable and recycled water to communities and industry increasingly uses membrane treatment to ensure high standards of water quality, particularly as water scarcity leads to the use of poor quality water sources. Fouling of membranes occurs as water is treated, adding expense and complexity to the process. Reducing fouling will lower the cost of water treatment and improve the economics of treating water in smaller systems at source. This will enable greater reliability of localised treatment, which will reduce pumping requirements and decrease both cost and carbon emissions. Read moreRead less
Nanoporous bioaffinity adsorbents for separations in the pharmaceutical industry. This proposal aims to develop new high performance adsorbents for bioprocess engineering based on templated nanoporous silica materials. This research will lead to significant advances in advanced materials and adsorbent technology, downstream processing for the biotechnology industries, and understanding of highly specific affinity interactions used for difficult bioseparations. It will have important benefits for ....Nanoporous bioaffinity adsorbents for separations in the pharmaceutical industry. This proposal aims to develop new high performance adsorbents for bioprocess engineering based on templated nanoporous silica materials. This research will lead to significant advances in advanced materials and adsorbent technology, downstream processing for the biotechnology industries, and understanding of highly specific affinity interactions used for difficult bioseparations. It will have important benefits for processes involving protein purification, such as bioplasma processing, as well as flow on effects to other applications of adsorbent technology such as food processing and water treatment. The new adsorbents will lead to reductions in the costs, energy usage and waste generation of Australian industries.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775550
Funder
Australian Research Council
Funding Amount
$345,000.00
Summary
Characterisation Equipment for Advanced Gas Separation Applications. The proposed research will lead to the synthesis of new advanced materials capable of performing new and existing separations more efficiently than previous methods. We therefore expect the new materials to directly benefit the community through improved removal and recovery of a wide range of pollutants which would otherwise enter the environment. This research is directly aligned to the National Research Priority of Frontie ....Characterisation Equipment for Advanced Gas Separation Applications. The proposed research will lead to the synthesis of new advanced materials capable of performing new and existing separations more efficiently than previous methods. We therefore expect the new materials to directly benefit the community through improved removal and recovery of a wide range of pollutants which would otherwise enter the environment. This research is directly aligned to the National Research Priority of Frontier Technologies for Building and Transforming Australian Industries: Advanced Materials.Read moreRead less
Development of smart material for the adsorption of oil spills on roads. The cost of road fuel spills in both Australia and worldwide is enormous. The research objective is to develop an admixture suitable for the absorption/adsorption of fuel and oil from road spills. The material will be designed to be contained within a fabric. The innovation is the application of the admixture in the form of a carpet, which is designed as easily used, non-toxic, recyclable and environmentally friendly. T ....Development of smart material for the adsorption of oil spills on roads. The cost of road fuel spills in both Australia and worldwide is enormous. The research objective is to develop an admixture suitable for the absorption/adsorption of fuel and oil from road spills. The material will be designed to be contained within a fabric. The innovation is the application of the admixture in the form of a carpet, which is designed as easily used, non-toxic, recyclable and environmentally friendly. The application is rapid. The successful development of the material has enormous economic benefits to Australia, providing a new industry with many employees. This new industry has the potential to bring great wealth to Australia.Read moreRead less
University of Queensland/Arizona State University partnership to design industrially suitable zeolite membranes for desalination. For desalination, the highest costs are organic-based membrane replacement (lasting ~1 year) and energy requirement. Functionalised zeolitic membranes are low-cost, high performing, chemically tolerant and thermally stable. New zeolite membranes in principle could perform the separation outlasting their organic counterparts, while at the same time offering major energ ....University of Queensland/Arizona State University partnership to design industrially suitable zeolite membranes for desalination. For desalination, the highest costs are organic-based membrane replacement (lasting ~1 year) and energy requirement. Functionalised zeolitic membranes are low-cost, high performing, chemically tolerant and thermally stable. New zeolite membranes in principle could perform the separation outlasting their organic counterparts, while at the same time offering major energy reductions from higher fluxes. Current zeolite membrane research for desalination however is lacking. The proposed team offers experience in bringing highly significant lab scale technologies to industrial scales. The outcomes will address mutual priorities between Australia and USA for reliable low cost supply of fresh water.Read moreRead less
The permeability of organized flocculated structures in dewatering in process engineering. The work aims to understand the method by which assemblies of particles in water, produced through flocculation, can be manipulated to produce highly permeable networks of particles. The work is critical to new developments and improving the efficiency of suspension dewatering processes world-wide and is of relevance to the food, pigments, minerals and electronics industries. The outcomes will be more ef ....The permeability of organized flocculated structures in dewatering in process engineering. The work aims to understand the method by which assemblies of particles in water, produced through flocculation, can be manipulated to produce highly permeable networks of particles. The work is critical to new developments and improving the efficiency of suspension dewatering processes world-wide and is of relevance to the food, pigments, minerals and electronics industries. The outcomes will be more efficient dewatering processes and novel products in these industries.Read moreRead less
Development of Vibratory Submerged Membrane Systems for Water and Wastewater Treatment. While there has been a dramatic increase in the use of submerged membrane systems in recent years, fouling of these membranes remains a major limitation to their more widespread use with the commonly used antifouling approach of bubbling with air exhibiting serious limitations. Low frequency vibration of submerged membranes appears to offer substantial benefits with regard to increased flexibility of operatio ....Development of Vibratory Submerged Membrane Systems for Water and Wastewater Treatment. While there has been a dramatic increase in the use of submerged membrane systems in recent years, fouling of these membranes remains a major limitation to their more widespread use with the commonly used antifouling approach of bubbling with air exhibiting serious limitations. Low frequency vibration of submerged membranes appears to offer substantial benefits with regard to increased flexibility of operation (such as the ability for rapid turn up/turn down and the ability to minimise fouling in anaerobic systems)and is likely to further extend the use of membranes in water and wastewater treatment.Read moreRead less
Optimal design and operation of submerged hollow fibres for flocculated feeds. This project will provide fundamental understanding of the operation of submerged hollow fibre (SHF)membranes with flocculated feed and fouling control by bubbling. The SHF is the latest generation membrane system for water and wastewater treatment offering lower cost and reduced energy demand. The operation of the SHF with floc is radically different from conventional membrane technology and this project will provid ....Optimal design and operation of submerged hollow fibres for flocculated feeds. This project will provide fundamental understanding of the operation of submerged hollow fibre (SHF)membranes with flocculated feed and fouling control by bubbling. The SHF is the latest generation membrane system for water and wastewater treatment offering lower cost and reduced energy demand. The operation of the SHF with floc is radically different from conventional membrane technology and this project will provide the understanding necessary to optimise design and operation.Read moreRead less