Australian Mineral Science Research Institute: Transformation of resource-based industries through the generation and application of new technologies. The research conducted within AMSRI will enable our existing resource-based industries to be transformed through the application of new technologies, helping to create an environmentally sustainable nation, a key national research priority. The research programs in energy efficient liberation, frugal water use and waste management, innovative proc ....Australian Mineral Science Research Institute: Transformation of resource-based industries through the generation and application of new technologies. The research conducted within AMSRI will enable our existing resource-based industries to be transformed through the application of new technologies, helping to create an environmentally sustainable nation, a key national research priority. The research programs in energy efficient liberation, frugal water use and waste management, innovative processing, material and interface science, advanced analysis and mathematics in minerals processing are of critical importance to Australia's major export industry. AMSRI will produce unique graduate students, educated in a multi-university, industry-linked research environment, who will provide a strong intellectual resource to both Australian industry and research institutions.Read moreRead less
Ecological regime shifts for re-engineering water pollution management. This project aims to validate a framework for the management of water pollution. As the world population increases, maintaining robust, cost-effective and environmentally safe water resources is important. This project will investigate environmental controls of toxin occurrence in urban and wastewater systems. The project is expected to mitigate deadly cyanotoxins, which threaten the safety of water resources, while a numeri ....Ecological regime shifts for re-engineering water pollution management. This project aims to validate a framework for the management of water pollution. As the world population increases, maintaining robust, cost-effective and environmentally safe water resources is important. This project will investigate environmental controls of toxin occurrence in urban and wastewater systems. The project is expected to mitigate deadly cyanotoxins, which threaten the safety of water resources, while a numerical ecological model will tackle water pollution issues in natural and engineered water systems.Read moreRead less
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
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
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560892
Funder
Australian Research Council
Funding Amount
$284,232.00
Summary
HF Radar Facility for Oceanography in the Great Barrier Reef. HF radar is becoming a dominant tool, globally, for monitoring surface features in coastal waters. A facility will be installed in the southern section of the Great Barrier Reef to monitor currents and waves on a continuous basis in support of an international study of coral bleaching. The facility will also be used to support the development of satellite remote sensing tools for monitoring the ocean on the continental shelf. HF ra ....HF Radar Facility for Oceanography in the Great Barrier Reef. HF radar is becoming a dominant tool, globally, for monitoring surface features in coastal waters. A facility will be installed in the southern section of the Great Barrier Reef to monitor currents and waves on a continuous basis in support of an international study of coral bleaching. The facility will also be used to support the development of satellite remote sensing tools for monitoring the ocean on the continental shelf. HF radar technology is relatively new and this facility offers Australian scientists the opportunity to retain their leading role in the world. The HF radar may be used for ship surveillance, for security and for environmental management in coastal waters.Read moreRead less
Advancing passive greywater treatment at household scale. Water recycling is increasingly encouraged in drought stricken Australia. The project aims to develop more energy efficient and less chemically driven treatment using passive processes to recycle greywater. The project will help in establishing sustainable communities across Australia and establish Australia as a world leader in water sustainability.
Polytitanium coagulant for water purification: a systematic investigation to identify mechanisms and benefits over today's technologies. This project will develop a more efficient, environmentally-friendly process for water treatment, using an approach involving titanium that has been attracting interest in recent years, but which is not yet well understood. An Australian-Chinese collaboration will build on existing Australian intellectual property in this project.
Developing an innovative high performance thin-film composite membrane using functionalized nanofibrous support layers for engineered osmosis. Engineered osmosis (EO) is based on the principles of natural osmosis and is an emerging technology for low energy desalination and power generation by pressure-retarded osmosis. However, the process is limited by the challenge of the internal concentration polarisation (ICP) effects experienced when currently available membranes are used. Therefore, the ....Developing an innovative high performance thin-film composite membrane using functionalized nanofibrous support layers for engineered osmosis. Engineered osmosis (EO) is based on the principles of natural osmosis and is an emerging technology for low energy desalination and power generation by pressure-retarded osmosis. However, the process is limited by the challenge of the internal concentration polarisation (ICP) effects experienced when currently available membranes are used. Therefore, the aims of this project are to enhance our understanding of the ICP phenomenon in EO process and to evaluate strategies to mitigate the influence of ICP effects on the performance of the EO process by incorporating innovative functionalised nanofibrous support layers for thin-film composite EO membrane. A significant increase of water flux and mechanical strength is anticipated.Read moreRead less
Composite Mesoporous Solids of TiO2 Nano-Crystals and Silicate as Photo-catalysts for Degradation of Organic Contaminants in Water. TiO2 photo-catalysis is a promising advanced technique for breaking down organic contaminants and bacteria in water and air. This project will develop a novel class of photo-catalysts, the composite meosporous compounds of anatase and layered clay, by combining templated synthesis and pillaring techniques. They will exhibit a high photo-catalytic efficiency with sup ....Composite Mesoporous Solids of TiO2 Nano-Crystals and Silicate as Photo-catalysts for Degradation of Organic Contaminants in Water. TiO2 photo-catalysis is a promising advanced technique for breaking down organic contaminants and bacteria in water and air. This project will develop a novel class of photo-catalysts, the composite meosporous compounds of anatase and layered clay, by combining templated synthesis and pillaring techniques. They will exhibit a high photo-catalytic efficiency with superior properties for practical operations because of the framework of large porosity arising from the arrangement of discrete anatase nano-particles within the silicate layers. The project involves mostly fundamental research into material synthesis, colloid and surface chemistry and photo-catalysis, and aims to develop advanced techniques for water treatment.Read moreRead less
Design of Advanced Geopolymeric Materials Based on Nanostructural Characterisation and Modelling. Geopolymers are a class of advanced aluminosilicate materials primarily utilised in the construction and building products industries, where their application as a replacement for ordinary Portland cement provides the potential for highly significant Greenhouse gas emission reductions. Australian research has led to the increasingly widespread commercial use of this technology in a range of areas. D ....Design of Advanced Geopolymeric Materials Based on Nanostructural Characterisation and Modelling. Geopolymers are a class of advanced aluminosilicate materials primarily utilised in the construction and building products industries, where their application as a replacement for ordinary Portland cement provides the potential for highly significant Greenhouse gas emission reductions. Australian research has led to the increasingly widespread commercial use of this technology in a range of areas. Development of a full understanding of the exact chemical structure of geopolymers is essential to finding and developing new applications for these materials as well as maximising their use in known applications.Read moreRead less