New Extraction Membranes and Beads for Use in Industrial Separation. This project involves the development and testing of new polymeric membranes and beads exhibiting high efficiency in the recovery of metal ions from hydrometallurgical solutions. These membranes and beads will also allow effective removal of toxic metal contaminants from wastewater streams before discharge into the environment and clean-up of contaminated natural waters. The research will ultimately lead to: (a) interactions wi ....New Extraction Membranes and Beads for Use in Industrial Separation. This project involves the development and testing of new polymeric membranes and beads exhibiting high efficiency in the recovery of metal ions from hydrometallurgical solutions. These membranes and beads will also allow effective removal of toxic metal contaminants from wastewater streams before discharge into the environment and clean-up of contaminated natural waters. The research will ultimately lead to: (a) interactions with Australian companies involved in metal processing, metal finishing and hydrometallurgy with beneficial effects to Australian industry; (b) training of high quality scientists; and (c) more efficient environmental protection and remediation thus helping to maintain Australia environmentally sustainable.Read moreRead less
Tuning Membrane Chemistry for Desalination and Water Reuse Applications. Climate change has led to a dramatic reduction in the availability of fresh water in southern Australia. Consequently, seawater desalination and wastewater recycling facilities are growing in number and size throughout the country. This project will directly benefit operation of these facilities by providing insight into the fundamentals of the membranes they utilise. The development of better predictive models of performan ....Tuning Membrane Chemistry for Desalination and Water Reuse Applications. Climate change has led to a dramatic reduction in the availability of fresh water in southern Australia. Consequently, seawater desalination and wastewater recycling facilities are growing in number and size throughout the country. This project will directly benefit operation of these facilities by providing insight into the fundamentals of the membranes they utilise. The development of better predictive models of performance will lead to more efficient water production. The project will specifically evaluate the ability of these membranes to retain dangerous contaminants such as endocrine disrupting chemicals and boric acid. Ultimately, the project will lead to lower costs for water production in Australia and better guarantee of supply.Read moreRead less
Fundamental studies in extensional rheology of polymers and biomacromolecules. Long molecules such as polymers, DNA and other biopolymers are of significant practical and fundamental interest. The behaviour of such polymers in extensional or stretching flows and the consequent stresses generated can be measured as a result of advances in instrumentation pioneered at Monash University. This research program builds on this foundation to understand the effects of molecular architecture on the prope ....Fundamental studies in extensional rheology of polymers and biomacromolecules. Long molecules such as polymers, DNA and other biopolymers are of significant practical and fundamental interest. The behaviour of such polymers in extensional or stretching flows and the consequent stresses generated can be measured as a result of advances in instrumentation pioneered at Monash University. This research program builds on this foundation to understand the effects of molecular architecture on the properties of macromolecules and to rigorously test several innovative theoretical concepts that have been advanced over the last 20 years. Such knowledge allows the tailoring of polymer shape to their end use and permits the design of novel polymers.Read moreRead less
The Application of Polymer Inclusion Membranes for the Removal of Thiocyanate and Cyanide from Gold Ore Processing Wastewaters. The recovery of gold at Stawell Gold Mine can be improved by using cyanide and thiocyanate free water in the milling process. The aim of this research is the development of a novel separation technology for the removal of these two ions from mine wastewater to allow it to be recycled. Novel polymeric materials, known as polymer inclusion membranes (PIMs), which have nev ....The Application of Polymer Inclusion Membranes for the Removal of Thiocyanate and Cyanide from Gold Ore Processing Wastewaters. The recovery of gold at Stawell Gold Mine can be improved by using cyanide and thiocyanate free water in the milling process. The aim of this research is the development of a novel separation technology for the removal of these two ions from mine wastewater to allow it to be recycled. Novel polymeric materials, known as polymer inclusion membranes (PIMs), which have never been used before in industrial separation, will be at the centre of this technology. In addition to increasing gold recovery, this technology is expected to reduce substantially the reliance of the Australian goldmining industry on fresh water. This research will also promote PIM based separation as a viable industrial separation technology, applicable in other areas.Read moreRead less
Linking topology and rheology for designing supramolecular polymer networks. This project aims to develop a foundation for understanding how microscopic topology and intermolecular interactions control the flow behaviour of supramolecular polymer networks. Brownian dynamics algorithms will be developed to unravel the complex dynamics of the network and calibrated by comparison with carefully designed experiments. The expected outcome of the project is a quantitative framework for connecting the ....Linking topology and rheology for designing supramolecular polymer networks. This project aims to develop a foundation for understanding how microscopic topology and intermolecular interactions control the flow behaviour of supramolecular polymer networks. Brownian dynamics algorithms will be developed to unravel the complex dynamics of the network and calibrated by comparison with carefully designed experiments. The expected outcome of the project is a quantitative framework for connecting the molecular structure and energy landscape with resulting macroscopic properties. This project should yield significant benefit in the rational design of supramolecular systems in which the thermorheological properties can be tuned over a wide range of force/time scales with applications spanning from enhanced oil recovery to injectable hydrogels.Read moreRead less
Embedded Antenna Technology in Smart Polymeric Composite Structures. This project is about embedding Global Positioning Satellite (GPS) reception technology in polymeric composite components to be deployed in automobiles. The aim of the project is to investigate the various parameters involved in integrating several participating technologies necessary to produce such smart components. The parameters to be investigated include the disciplines of composite materials, patch antenna and wireless co ....Embedded Antenna Technology in Smart Polymeric Composite Structures. This project is about embedding Global Positioning Satellite (GPS) reception technology in polymeric composite components to be deployed in automobiles. The aim of the project is to investigate the various parameters involved in integrating several participating technologies necessary to produce such smart components. The parameters to be investigated include the disciplines of composite materials, patch antenna and wireless communication technologies. The significance and outcome of this project is the development of a manufacturing method to make a normal looking composite component with GPS signal processing capabilities. It is also expected that the findings from this project can be extended to other sensor-based industries.Read moreRead less