Innovative hybrid membrane-based pretreatment strategies for remote community groundwater supplies. Innovative membrane-based strategies for the removal of particulate foulants from groundwaters prior to the removal of dissolved constituents via advanced techniques will be investigated in this project, with the goal of developing robust, integrated processes for the supply of potable water to remote communities.
Iron and phosphorus recovery from ferric precipitation sludge. To minimise health risks and environmental pollution, water and wastewater treatment processes often use iron salts to eliminate phosphate and other pollutants. This generates large amounts of chemical sludge that is typically sent to landfill. The benefits of this new process will be the recovery of both the iron, which can be reused in the process, and the phosphate, which is a key component in fertiliser. Since phosphate is a limi ....Iron and phosphorus recovery from ferric precipitation sludge. To minimise health risks and environmental pollution, water and wastewater treatment processes often use iron salts to eliminate phosphate and other pollutants. This generates large amounts of chemical sludge that is typically sent to landfill. The benefits of this new process will be the recovery of both the iron, which can be reused in the process, and the phosphate, which is a key component in fertiliser. Since phosphate is a limited natural resource with an increasingly high value, the recovery and recycling of this critical element in food production is highly important. The process will also avoid a large part of the sludge production and will make the water treatment processes more cost-effective.Read moreRead less
Novel hybrid silica membranes for desalination. This project aims to produce high flux, highly stable ceramic membranes for use in desalination. This will result in novel, low energy desalination processes, delivering potable water at a greatly reduced cost.
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
Ultrasound for control of cyanobacteria. Blue-green algae, also known as cyanobacteria, forms in drinking water supplies in Australia and can cause water-quality problems. Current methods to treat blue-green algae involve the use of Copper Sulphate, which is not an environmentally friendly compound. A potential alternative environmentally friendly water-treatment method involves the use of ultrasound to disrupt the cyanobacteria. The aim of this project is to determine the physical properties of ....Ultrasound for control of cyanobacteria. Blue-green algae, also known as cyanobacteria, forms in drinking water supplies in Australia and can cause water-quality problems. Current methods to treat blue-green algae involve the use of Copper Sulphate, which is not an environmentally friendly compound. A potential alternative environmentally friendly water-treatment method involves the use of ultrasound to disrupt the cyanobacteria. The aim of this project is to determine the physical properties of the cyanobacteria when excited with ultrasound for the purpose of finding an efficient method to treat large volumes of water. 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
Optimisation of nutrient removal, membrane fouling and sludge dewatering in hybrid coagulation/submerged membrane bioreactor treatment of wastewaters. Submerged membrane bioreactor technology for the treatment of wastewaters is now a competitive technology with small footprint and generally high quality of treated effluent. Despite this, challenges remain in ensuring low effluent nutrient concentrations, minimal membrane fouling and acceptable excess sludge dewaterability. Addition of iron or a ....Optimisation of nutrient removal, membrane fouling and sludge dewatering in hybrid coagulation/submerged membrane bioreactor treatment of wastewaters. Submerged membrane bioreactor technology for the treatment of wastewaters is now a competitive technology with small footprint and generally high quality of treated effluent. Despite this, challenges remain in ensuring low effluent nutrient concentrations, minimal membrane fouling and acceptable excess sludge dewaterability. Addition of iron or aluminium-based coagulant chemicals can assist but many uncertainties with regard to choice of chemical, optimal dosing arrangements and membrane bioreactor operating conditions remain. Experimental and computational studies targeted at improving understanding and optimising performance will be undertaken through collaborative studies by the UNSW and Tsinghua University (Beijing) research team.Read moreRead less
Food structure design. Food structure design. This project aims to use fundamental studies in multi-scale rheology and biotribology, surface sciences, soft matter physics and protein chemistry to develop new measurement capabilities and knowledge for rational food structure design. This research is intended to enable researchers and industry to quantify how oral processing (including saliva) transforms food during consumption, and to provide new instrumental measurements and know-how that assist ....Food structure design. Food structure design. This project aims to use fundamental studies in multi-scale rheology and biotribology, surface sciences, soft matter physics and protein chemistry to develop new measurement capabilities and knowledge for rational food structure design. This research is intended to enable researchers and industry to quantify how oral processing (including saliva) transforms food during consumption, and to provide new instrumental measurements and know-how that assists in defining sensory percepts in dairy foods and beverages such as creaminess in full, reduced or non-fat systems and grittiness in high protein systems.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