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Stabilisation of Titania Pigment Slurries During Processing. This project aims to improve the stabilisation properties of titania pigment slurries during production. Current polyphosphate dispersants used by Tiwest are unstable under processing conditions. Tailored, robust dispersing reagents will therefore be investigated in order to provide improved stabilisation of pigments during processing. Enhanced understanding of the dispersing reagents interaction with the titania pigment surface and th ....Stabilisation of Titania Pigment Slurries During Processing. This project aims to improve the stabilisation properties of titania pigment slurries during production. Current polyphosphate dispersants used by Tiwest are unstable under processing conditions. Tailored, robust dispersing reagents will therefore be investigated in order to provide improved stabilisation of pigments during processing. Enhanced understanding of the dispersing reagents interaction with the titania pigment surface and the subsequent stability of the pigment will allow advances in processing and consequently improved final products. The potential growth in market share, by improved product performance, is in excess of $50M pa.Read moreRead less
Evaluating modern printing inks: the behaviour of charged particles in concentrated nonaqueous colloidal dispersions. The Partner Organisation in this proposal, Research Laboratories of Australia (RLA) is a small Adelaide-based company which is at the forefront of modern colour printing technology. RLA provides liquid toners to several major international manufacturers of colour printers for use in liquid immersion development processes. This proposal will develop an instrument for characterisin ....Evaluating modern printing inks: the behaviour of charged particles in concentrated nonaqueous colloidal dispersions. The Partner Organisation in this proposal, Research Laboratories of Australia (RLA) is a small Adelaide-based company which is at the forefront of modern colour printing technology. RLA provides liquid toners to several major international manufacturers of colour printers for use in liquid immersion development processes. This proposal will develop an instrument for characterising the properties of liquid inks, enabling continual R&D improvement of RLA's products. Furthermore, the instrument can be commercialised and marketed worldwide to companies dealing with concentrated colloidal dispersions in a wide range of industries including foods, pharmaceuticals, cosmetics and surface coatings.Read moreRead less
Integrated self assembly processes and spinning disc reactor technology. Spinning Disc Reactor technology is new to Australia and will have wide ranging applications in nano-technology and in developing benign industrial chemical processes with smaller footprint and significantly reduced capital outlay. The cutting edge research will foster collaboration with industry, and lead to establishing new industries in device technology, smart materials, health care products, catalysis and energy storag ....Integrated self assembly processes and spinning disc reactor technology. Spinning Disc Reactor technology is new to Australia and will have wide ranging applications in nano-technology and in developing benign industrial chemical processes with smaller footprint and significantly reduced capital outlay. The cutting edge research will foster collaboration with industry, and lead to establishing new industries in device technology, smart materials, health care products, catalysis and energy storage, through exploiting commercial opportunities. The project will provide excellent research training in a range of scientific skills and in professional development, and will involve overseas PhD exchange programs. The exciting research incorporating benign metrics will enhance public opinion towards science. 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
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
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775513
Funder
Australian Research Council
Funding Amount
$400,000.00
Summary
Advanced Process Tomography Research Facility for Multiphase System Studies. The establishment of an advanced process tomography facility at UNSW has several important national benefits, including; increased capacity of the collaborating institutions to train highly qualified personnel to meet new and growing demands in the processing industries; the transfer of research-based cheap and efficient technologies to our industries to enhance their position in a competitive global market; the improve ....Advanced Process Tomography Research Facility for Multiphase System Studies. The establishment of an advanced process tomography facility at UNSW has several important national benefits, including; increased capacity of the collaborating institutions to train highly qualified personnel to meet new and growing demands in the processing industries; the transfer of research-based cheap and efficient technologies to our industries to enhance their position in a competitive global market; the improvement in our culture and living standards through superior and inexpensive food, biomedical, water, environmental, materials and military products; and the strengthening of Australian position, through international linkage projects, as a world leader in the development of novel processing technologies.Read moreRead less
Integrated approach to functional carbon based materials. Exploiting novel forms of carbon to create new technologies for the energy, health and environmental sectors is a major challenge in nanotechnology. To address this challenge we will exploit innovative methods such as self-assembly and continuous flow spinning disc processing. Our proposed research will make significant contributions to a fundamental understanding of carbon nanomaterials. To this end, we will bring together international ....Integrated approach to functional carbon based materials. Exploiting novel forms of carbon to create new technologies for the energy, health and environmental sectors is a major challenge in nanotechnology. To address this challenge we will exploit innovative methods such as self-assembly and continuous flow spinning disc processing. Our proposed research will make significant contributions to a fundamental understanding of carbon nanomaterials. To this end, we will bring together international expertise with complementary skills, providing a more inventive research culture and excellent opportunities for training young scientists. The attractive low cost of renewable starting materials and small footprint of the ensuing technologies will provide a platform for fostering links with industry.Read moreRead less
Understanding nanostructure in lead-containing piezoceramics - the key to improved and environmentally-friendly materials. Lead-containing piezoelectric ceramics form the basis of multi-billion dollar industries, posing an increasingly serious environmental threat due to the toxicity of lead. By obtaining a detailed understanding of how their properties arise from their nanoscale structure and chemistry, our research will lead to improvements in existing materials and aid the quest for environme ....Understanding nanostructure in lead-containing piezoceramics - the key to improved and environmentally-friendly materials. Lead-containing piezoelectric ceramics form the basis of multi-billion dollar industries, posing an increasingly serious environmental threat due to the toxicity of lead. By obtaining a detailed understanding of how their properties arise from their nanoscale structure and chemistry, our research will lead to improvements in existing materials and aid the quest for environmentally-friendly alternatives. We will use a methodology for the elucidation of local structure and dynamics in which we are world leaders. The project will further enhance our standing in the field, provide excellent research training for students and early-career researchers and highlight the power and potential of Australia's new Synchrotron and OPAL research reactor.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
Meshes of Oxide Nanofibres for Next-Generation Ceramic Membranes. Our next-generation ceramic membranes will increase the speed and efficiency of present industrial separations as well as expanding into a variety of new separations, thereby transforming many Australian industries. Exports of this new technology also will generate significant national benefits. Application of these new membranes to removing pollutants and pathogens from water and/or air will bring significant community benefits g ....Meshes of Oxide Nanofibres for Next-Generation Ceramic Membranes. Our next-generation ceramic membranes will increase the speed and efficiency of present industrial separations as well as expanding into a variety of new separations, thereby transforming many Australian industries. Exports of this new technology also will generate significant national benefits. Application of these new membranes to removing pollutants and pathogens from water and/or air will bring significant community benefits globally, addressing such crucial issues as low-cost provision of clean drinking water. Additionally, understanding the cutting-edge science associated with the mechanisms of nanofibre growth and the assembly of nanofibre meshes is highly valuable, making an important contribution to Australia's knowledge-economy.Read moreRead less