Synthesis of oligomers in dense carbon dioxide. The aim of the project is to develop a novel technique for the synthesis of low molecular weight polymers (oligomers) using dense carbon dioxide as a polymerisation solvent. The use of elevated pressure is the major impediment to the commercialisation of such technology. The technique proposed in this project will enable oligomers to be produced at greatly reduced operating pressures and may lead to a more general procedure for conducting other t ....Synthesis of oligomers in dense carbon dioxide. The aim of the project is to develop a novel technique for the synthesis of low molecular weight polymers (oligomers) using dense carbon dioxide as a polymerisation solvent. The use of elevated pressure is the major impediment to the commercialisation of such technology. The technique proposed in this project will enable oligomers to be produced at greatly reduced operating pressures and may lead to a more general procedure for conducting other types of polymer synthesis in dense carbon dioxide.Read moreRead less
Catalytic conversion of Australia's natural gas to value added products. While natural gas (of which methane is the primary component) is an abundant source of energy, it is normally found in remote areas and for its successful exploitation it needs to be processed. The processing usually requires significant energy and resources input. In this project we will develop a fundamental understanding to a single step catalytic process that can utilise natural gas and nitrous oxide (both potent greenh ....Catalytic conversion of Australia's natural gas to value added products. While natural gas (of which methane is the primary component) is an abundant source of energy, it is normally found in remote areas and for its successful exploitation it needs to be processed. The processing usually requires significant energy and resources input. In this project we will develop a fundamental understanding to a single step catalytic process that can utilise natural gas and nitrous oxide (both potent greenhouse gases) and oxygen to produce selectively methanol and hydrocarbons from a natural gas feedstream in a controlled manner. A single step process for natural gas conversion utilising waste green-house gases is expected to be of great benefit to the Australian economy, environment and energy securityRead moreRead less
An Integrated Framework for Optimisation and Control of Key Product Properties in Emulsion Polymerisation. Emulsion polymerization is of major industrial importance. In addition to process efficiency, the use of water as the reactor medium provides environmental benefits. This proposal is aimed at building an integrated framework to analyse, model, control and optimise emulsion polymerisation systems in order to understand, design and operate such complex systems to obtain desired polymer produc ....An Integrated Framework for Optimisation and Control of Key Product Properties in Emulsion Polymerisation. Emulsion polymerization is of major industrial importance. In addition to process efficiency, the use of water as the reactor medium provides environmental benefits. This proposal is aimed at building an integrated framework to analyse, model, control and optimise emulsion polymerisation systems in order to understand, design and operate such complex systems to obtain desired polymer product characteristics. Complex kinetic, transport and evolution equations will be analysed and solved for predicting and controlling key product properties. This project will provide not only a significant advance in fundamental knowledge of polymerisation systems but will also enable production of cost-effective ?designer polymers? for a wide-range of applications.Read moreRead less
Innovative green technology for bio-particle engineering. Approximately 40% of new pharmaceuticals are poorly soluble in bodily fluids. In many cases this leads to poor bioavailability, and consequent undesirable side effects as a result of high compensating dosages and generally poor patient compliance. These issues will be addressed by developing a green technology for the re-engineering of pharmaceuticals with the objective of increasing bioavilability. The research programme falls within th ....Innovative green technology for bio-particle engineering. Approximately 40% of new pharmaceuticals are poorly soluble in bodily fluids. In many cases this leads to poor bioavailability, and consequent undesirable side effects as a result of high compensating dosages and generally poor patient compliance. These issues will be addressed by developing a green technology for the re-engineering of pharmaceuticals with the objective of increasing bioavilability. The research programme falls within the Designated Research Priority of Frontier Technologies for Building and Transforming Australian Industries. Read moreRead less
Establishing the relationship between water characteristics and fouling of membranes used in water reuse. The project will result in the following significant benefits to the Australian and international partners: a state-of-the-art laboratory and semi-pilot system from which a full-scale system could be developed and tested, funded by the water industry; an outstanding research project for postgraduate students at the University of Technology, Sydney (UTS), Gwangji Institute of Science and Tech ....Establishing the relationship between water characteristics and fouling of membranes used in water reuse. The project will result in the following significant benefits to the Australian and international partners: a state-of-the-art laboratory and semi-pilot system from which a full-scale system could be developed and tested, funded by the water industry; an outstanding research project for postgraduate students at the University of Technology, Sydney (UTS), Gwangji Institute of Science and Technology, Korea (GIST) and Yale University; and fostering a culture of innovation in the wastewater industry in Australia, Korea and USA and contributing to the commercialization of research by UTS, GIST and YU.Read moreRead less
Fluidised bed biosorption-flocculation granular activated carbon (FBBSF-GAC) for membrane filtration in wastewater reuse. Water resource is limited and has been continuously decreasing. The idea of recycling and reusing of wastewater has been adopted for irrigation, industry and other non-potable uses. In Australia, wastewater reuse is now considered a key strategy for conserving water at national, state and local level. In this study, the proposed treatment unit is to produce a superior effluen ....Fluidised bed biosorption-flocculation granular activated carbon (FBBSF-GAC) for membrane filtration in wastewater reuse. Water resource is limited and has been continuously decreasing. The idea of recycling and reusing of wastewater has been adopted for irrigation, industry and other non-potable uses. In Australia, wastewater reuse is now considered a key strategy for conserving water at national, state and local level. In this study, the proposed treatment unit is to produce a superior effluent quality for water reuse while minimize membrane fouling of the membrane filtration system. Hence, it will benefit water industries globally and communities in Australia. There will be a major export opportunity from Australia to supply efficient, low-cost and sustainable flocculant together with an improved treatment system worldwide.Read moreRead less
Advanced technology for production of foreign proteins in plant cell and organ cultures. The aim of this project is to develop new technology for in vitro production of pharmaceutical proteins using plant tissue culture. Animal proteins such as antibodies are currently being produced using recombinant plant systems in bioreactors; however, transient gene expression using genetically-modified viruses has a range of potential benefits for substantially increasing foreign protein titres. Because vi ....Advanced technology for production of foreign proteins in plant cell and organ cultures. The aim of this project is to develop new technology for in vitro production of pharmaceutical proteins using plant tissue culture. Animal proteins such as antibodies are currently being produced using recombinant plant systems in bioreactors; however, transient gene expression using genetically-modified viruses has a range of potential benefits for substantially increasing foreign protein titres. Because viruses rapidly infect plant tissues and can be amplified to extremely high levels, this new method for in vitro foreign protein synthesis has considerable promise. This project will extend the existing science of plant tissue culture into new areas with commercial potential.Read moreRead less
Hanging sponge aerobic bioreactor and membrane - adsorption hybrid system: a novel two stage system in wastewater reuse. A novel two-stage system consisting of a downflow hanging sponge biological reactor (DHS) and submerged membrane-adsorption hybrid system (SMAS) will be developed in this study. The DHS modified to incorporate solid separation and superior organics, and nitrogen removal will be an excellent pretreatment system that features minimum energy requirement and on sludge production. ....Hanging sponge aerobic bioreactor and membrane - adsorption hybrid system: a novel two stage system in wastewater reuse. A novel two-stage system consisting of a downflow hanging sponge biological reactor (DHS) and submerged membrane-adsorption hybrid system (SMAS) will be developed in this study. The DHS modified to incorporate solid separation and superior organics, and nitrogen removal will be an excellent pretreatment system that features minimum energy requirement and on sludge production. The post treatment of SMAS is to be studied to optimize aeration, biological activity on activated carbon will remove the remaining organics, solids, bacteria and majority of viruses. The developed hybrid system will be a cost- effective system in water reuse in small communities.Read moreRead less
Integration of Sponge Based Technology and Membrane Bioreactor: A Sustainable Treatment System for Water Recycling. Clean, safe water is becoming scarce in Australia. Recycling water is considered a promising solution to this growing problem. It is therefore important to develop sustainable treatment technologies for it. Integrating sponge-based technology and membrane bioreactor systems will solve the most challenging problem of membrane fouling while producing high quality of recycled water fr ....Integration of Sponge Based Technology and Membrane Bioreactor: A Sustainable Treatment System for Water Recycling. Clean, safe water is becoming scarce in Australia. Recycling water is considered a promising solution to this growing problem. It is therefore important to develop sustainable treatment technologies for it. Integrating sponge-based technology and membrane bioreactor systems will solve the most challenging problem of membrane fouling while producing high quality of recycled water from wastewater. The technology will maximize water resources, minimize waste and increase economic effectiveness and contributes direct benefits to the Nation in particular and to the world as a whole.Read moreRead less
An Optimal Integrated Immersed Membrane System as Pre-Treatment for Reverse Osmosis Desalination. This project will be useful for both coastal and inland areas of Australia. It will provide sustainable technology to meet the needs of water supply where the main sources are seawater and brackish water. Reverse osmosis (RO) is the dominant technology in water desalination and in the final polishing step in wastewater treatment for reuse. The novel pre-treatment proposed in this study is the key fo ....An Optimal Integrated Immersed Membrane System as Pre-Treatment for Reverse Osmosis Desalination. This project will be useful for both coastal and inland areas of Australia. It will provide sustainable technology to meet the needs of water supply where the main sources are seawater and brackish water. Reverse osmosis (RO) is the dominant technology in water desalination and in the final polishing step in wastewater treatment for reuse. The novel pre-treatment proposed in this study is the key for the cost-effective and energy efficient operation of RO. This project will strengthen research links among Australian, European and USA universities, to come up with a forefront pre-treatment technology for RO desalination. The technology is of direct benefit to ongoing RO installations in Australia and also has significant export potential.Read moreRead less