Process for treatment of fluorine-containing synthetic greenhouse gases. It is generally agreed that increasing levels of greenhouse gases in the atmosphere are leading to higher average atmospheric temperatures. This research pursues the development of an energy-efficient, non-destructive process for transforming fluorine-containing greenhouse gases (GHGs) into valuable and environmentally benign products. The application of research will lead to the development of a new non-destructive proce ....Process for treatment of fluorine-containing synthetic greenhouse gases. It is generally agreed that increasing levels of greenhouse gases in the atmosphere are leading to higher average atmospheric temperatures. This research pursues the development of an energy-efficient, non-destructive process for transforming fluorine-containing greenhouse gases (GHGs) into valuable and environmentally benign products. The application of research will lead to the development of a new non-destructive process and will benefit Australia, socially by reducing emission of GHGs and thus protecting the environment, and economically through licensing of the technology for treatment of the growing stockpiles of synthetic GHGs.
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New dispersants for improved agrochemical and allied formulations. This project will deliver substantial benefits for national regional communities and the environment through improved agrochemical dispersion, and reduced pesticide and water use. This project will deliver improved products for agrochemicals and animal food, bringing significant agricultural advantages to Australia. This will help Huntsman with cutting-edge technologies in manufacturing agrochemical and related products for the n ....New dispersants for improved agrochemical and allied formulations. This project will deliver substantial benefits for national regional communities and the environment through improved agrochemical dispersion, and reduced pesticide and water use. This project will deliver improved products for agrochemicals and animal food, bringing significant agricultural advantages to Australia. This will help Huntsman with cutting-edge technologies in manufacturing agrochemical and related products for the national and global markets. We will provide advanced training for postgraduate and research personnel that will be sought-after by the agrochemical and allied industries.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560662
Funder
Australian Research Council
Funding Amount
$204,157.00
Summary
Flow Diagnostics Facility for Microstructured Systems. This Project will establish Australia's only world-class facility for the interrogation of steady and fluctuating flows in microstructured components, enabling detailed characterisation of the flow patterns and velocities that occur in single phase and multiphase flows in miniature devices. Such devices are currently being developed by the Chief Investigators in the area of microreactor technology and chemical process intensification, in mic ....Flow Diagnostics Facility for Microstructured Systems. This Project will establish Australia's only world-class facility for the interrogation of steady and fluctuating flows in microstructured components, enabling detailed characterisation of the flow patterns and velocities that occur in single phase and multiphase flows in miniature devices. Such devices are currently being developed by the Chief Investigators in the area of microreactor technology and chemical process intensification, in microelectromechanical systems (MEMS), and in high efficiency membrane separation systems. The new Facility will enable them and others to enhance their research through visualisation and quantification of flow behaviour at the scale of a few micrometres.Read moreRead less
Process Systems for Distributed Chemical Manufacturing. This Project investigates a new paradigm for chemicals production, moving away from large-scale centralised plant to distributed manufacture in relatively small localised facilities. The Project is built on the conjunction of a revolutionary process systems synthesis methodology with a new approach to highly compact equipment manufacture. The Project is of great significance to developing countries and to smaller, remote economies such as A ....Process Systems for Distributed Chemical Manufacturing. This Project investigates a new paradigm for chemicals production, moving away from large-scale centralised plant to distributed manufacture in relatively small localised facilities. The Project is built on the conjunction of a revolutionary process systems synthesis methodology with a new approach to highly compact equipment manufacture. The Project is of great significance to developing countries and to smaller, remote economies such as Australia's, which cannot justify or compete with world-scale production facilities. We will develop our ideas in a case study and identify routes to practical implementation of this example in particular and of the new approach in general.Read moreRead less
Process Chemistry for Distributed Manufacture of Nitric Acid. This project will benefit Australia by enabling a new approach to the manufacture of explosives for the country's mining industry which will provide the entire explosives supply chain with greater safety and security. Development of this technology will enhance Orica's competitive position as the largest manufacturer of mining explosives in the world and will produce wealth for the country through the continued success of this ASX Top ....Process Chemistry for Distributed Manufacture of Nitric Acid. This project will benefit Australia by enabling a new approach to the manufacture of explosives for the country's mining industry which will provide the entire explosives supply chain with greater safety and security. Development of this technology will enhance Orica's competitive position as the largest manufacturer of mining explosives in the world and will produce wealth for the country through the continued success of this ASX Top 50 company and the export of the technology.Read moreRead less
Optimal Ethylene Oxide Manufacturing via Advanced Process Modelling and Control. This project aims at improving plant efficiency and safety to a world's best level for the Ethylene Oxide (EO) plant of Huntsman Corporation Australia (HCA). EO is a key chemical intermediate for making polyesters (clothing, PET bottles, insulation) and surfactants. To remain globally competitive, it is essential to improve the efficiency of the plant, which has a small capacity and supports important Australian mar ....Optimal Ethylene Oxide Manufacturing via Advanced Process Modelling and Control. This project aims at improving plant efficiency and safety to a world's best level for the Ethylene Oxide (EO) plant of Huntsman Corporation Australia (HCA). EO is a key chemical intermediate for making polyesters (clothing, PET bottles, insulation) and surfactants. To remain globally competitive, it is essential to improve the efficiency of the plant, which has a small capacity and supports important Australian markets. The goals will be achieved by developing advanced operational and control strategies (through computer modeling, process optimisation and intelligent systems approach), which will assist in better understanding the process and in providing optimal HCA plant operation.Read moreRead less
An Intelligent/Smart Framework for Total Process Monitoring And Supervision. Operator failures have an adverse effect on product quality, process safety, occupational health and environmental impact. The management of abnormal operating conditions is a major responsibility and depends critically on information management. A recent report indicates that the total cost attributable to preventable losses in petrochemical companies in U.S. amounts to twenty billion dollars per year. The objective o ....An Intelligent/Smart Framework for Total Process Monitoring And Supervision. Operator failures have an adverse effect on product quality, process safety, occupational health and environmental impact. The management of abnormal operating conditions is a major responsibility and depends critically on information management. A recent report indicates that the total cost attributable to preventable losses in petrochemical companies in U.S. amounts to twenty billion dollars per year. The objective of this project is to develop the theoretical framework and implementation of an Advanced Integrated Support System (ISS) for process monitoring, data analysis and interpretation, event detection and diagnosis, and operations support in chemical and petrochemical processes manufacturing.Read moreRead less
Novel inkjet-printed organic solvent nanofiltration membranes. The pharmaceutical industry is one of fastest growing industries in Australia. Manufacturing pharmaceutical products requires the use of hazardous and expensive organic solvents, which are toxic for the environment and expensive to recover due to the energy intensive thermal process required. This project aims to discover and manufacture a novel, low-cost, chemically robust nanomaterial-based membrane using an industry scalable inkje ....Novel inkjet-printed organic solvent nanofiltration membranes. The pharmaceutical industry is one of fastest growing industries in Australia. Manufacturing pharmaceutical products requires the use of hazardous and expensive organic solvents, which are toxic for the environment and expensive to recover due to the energy intensive thermal process required. This project aims to discover and manufacture a novel, low-cost, chemically robust nanomaterial-based membrane using an industry scalable inkjet printing process. The membrane will be resistant to organic solvents while efficiently recovering valuable and hazardous organic solvents with minimum environmental footprint. It will effectively provide for the future growth of the Australian pharmaceutical industry while also having global applications.Read moreRead less
Development of a Novel Process for the Formation of Polymer Vesicles. The project would provide an increased understanding of polymer structures, polymer-drug interactions and dense gas processing of polymers. The novel process developed would be beneficial on a manufacturing level since it dramatically reduces processing time and minimises energy requirements. The research to be conducted is leading-edge technology that will attract business from international polymer, drug and biotechnology co ....Development of a Novel Process for the Formation of Polymer Vesicles. The project would provide an increased understanding of polymer structures, polymer-drug interactions and dense gas processing of polymers. The novel process developed would be beneficial on a manufacturing level since it dramatically reduces processing time and minimises energy requirements. The research to be conducted is leading-edge technology that will attract business from international polymer, drug and biotechnology companies. The development of world-class research provides Australia with recognition as a world leader in the field and strengthens and broadens the knowledge base of Australian scientists and engineers.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