NOVEL Fe-Cr OXIDE AND SKELETAL (RANEY) CATALYSTS FOR WATER GAS SHIFT REACTION. The water gas shift reaction has an importance implication in the control of carbon monoxide/hydrogen ratios of gas mixtures used during the synthesis of methanol, diesel and hydrogen. The research study aims to develop and characterise Fe-Cr oxide and chromia-promoted Raney Cu catalysts for water gas shift reaction using a tube wall reactor. The catalyst fabrication is based on leaching and electrochemical deposition ....NOVEL Fe-Cr OXIDE AND SKELETAL (RANEY) CATALYSTS FOR WATER GAS SHIFT REACTION. The water gas shift reaction has an importance implication in the control of carbon monoxide/hydrogen ratios of gas mixtures used during the synthesis of methanol, diesel and hydrogen. The research study aims to develop and characterise Fe-Cr oxide and chromia-promoted Raney Cu catalysts for water gas shift reaction using a tube wall reactor. The catalyst fabrication is based on leaching and electrochemical deposition to promote the catalytic activity. The produced catalysts will be characterised and tested for catalytic activity, temperature stability and other physical properties to determine fundamental understanding for future commercial applications.Read moreRead less
Development of constitutive models for concentrated suspensions via particle-level simulations. The outcome of this work will be a comprehensive theoretical framework by which accurate microstructural information is distilled into a macro-scale constitutive model of particulate suspensions, readily useable for modelling of practical industrial applications. This work will have a direct impact on the design capability and performance of a wide range of mechanisms and industrial processes involvin ....Development of constitutive models for concentrated suspensions via particle-level simulations. The outcome of this work will be a comprehensive theoretical framework by which accurate microstructural information is distilled into a macro-scale constitutive model of particulate suspensions, readily useable for modelling of practical industrial applications. This work will have a direct impact on the design capability and performance of a wide range of mechanisms and industrial processes involving suspensions. The development of better models for industrially useful suspensions offers a competitive advantage for a diverse range of Australia industry, from the food preparation sector, to mineral slurry transport, and water filtration and recycling.Read moreRead less
Microstructural mechanisms of magnetorheological suspensions. A magnetorheological suspension (MRS) is a "smart material" which shows an enormous but reversible increase in flow resistance upon application of a magnetic field. These tunable fluids have many engineering applications, such as in adjustable vibration damping systems. This project comprises a series of innovative experiments and computer simulations, which will lead to a predictive constitutive model. We will investigate the underly ....Microstructural mechanisms of magnetorheological suspensions. A magnetorheological suspension (MRS) is a "smart material" which shows an enormous but reversible increase in flow resistance upon application of a magnetic field. These tunable fluids have many engineering applications, such as in adjustable vibration damping systems. This project comprises a series of innovative experiments and computer simulations, which will lead to a predictive constitutive model. We will investigate the underlying physical mechanisms governing the mechanical response of MRS, including the behaviour under small strains and under squeeze flow, the effects of rheometer wall conditions, and the role of matrix viscoelasticity or viscoplasticity.Read moreRead less
The role of floc structure in the formation of sediments and filter cakes. The project aims to understand at a fundamental level if and in what way the fractal structure of aggregates of fine particles is preserved when forming sediments and filter cakes. The effect of this structure on processes for separating solids and liquids is significant: each year, millions of dollars stand to be saved though more efficient filtration, and more efficient thickening of mineral slurries. Improved understan ....The role of floc structure in the formation of sediments and filter cakes. The project aims to understand at a fundamental level if and in what way the fractal structure of aggregates of fine particles is preserved when forming sediments and filter cakes. The effect of this structure on processes for separating solids and liquids is significant: each year, millions of dollars stand to be saved though more efficient filtration, and more efficient thickening of mineral slurries. Improved understanding allows intelligent design of flocculation systems to optimise the performance of downstream solid - liquid separation processes, maximising economic and environmental returns.Read moreRead less
The Study of Pretreatment Options for Composite Fouling of Reverse Osmosis Membranes Used in Water Treatment and Production. It is recognised worldwide that fouling is a major impediment in operation of Reverse Osmosis units used for production, purification and treatment of water. This project is aimed at studying pre-treatment options for composite fouling which is the main type of fouling present in RO units by using both model feed systems and actual field water. The project outcomes are to ....The Study of Pretreatment Options for Composite Fouling of Reverse Osmosis Membranes Used in Water Treatment and Production. It is recognised worldwide that fouling is a major impediment in operation of Reverse Osmosis units used for production, purification and treatment of water. This project is aimed at studying pre-treatment options for composite fouling which is the main type of fouling present in RO units by using both model feed systems and actual field water. The project outcomes are to understand and develop pre-treatment strategies and to use those to develop a hybrid pre-treatment technology. This project will significantly impact water production in general and its outcomes will have far-reaching implications in treatment of water both within Australia and globally.Read moreRead less
The Boron Rejection by RO Membranes in presence of Calcium Carbonate and Magnesium Hydroxide. Water scarcity in various parts of the world demands the use of available saline waters for production of potable water. Reverse Osmosis membranes have been used as a means of achieving this objective. Fouling is a major impediment in operation of reverse osmosis units. The project aims to study boron removal by RO under high pH which increases the boron rejection but at the same time exacerbates compos ....The Boron Rejection by RO Membranes in presence of Calcium Carbonate and Magnesium Hydroxide. Water scarcity in various parts of the world demands the use of available saline waters for production of potable water. Reverse Osmosis membranes have been used as a means of achieving this objective. Fouling is a major impediment in operation of reverse osmosis units. The project aims to study boron removal by RO under high pH which increases the boron rejection but at the same time exacerbates composite fouling by calcium carbonate and magnesium hydroxide. Optimum pH for boron rejection will be determined and propensity of calcium carbonate and magnesium hydroxide at that pH range will be evaluated.Read moreRead less
Gas-phase and catalytic reaction of halons under reducing conditions. Halons are ozone-depleting substances, but their use continues in most countries. This project pursues techniques to convert, rather than destroy, halons into benign and useful products. The aims of this project are to gain a fundamental understanding of the reactions of the most commonly used halons, 1301, 1211 and 2402, and perform a detailed examination of catalytic processes for conversion of halons to HFCs. The primary ....Gas-phase and catalytic reaction of halons under reducing conditions. Halons are ozone-depleting substances, but their use continues in most countries. This project pursues techniques to convert, rather than destroy, halons into benign and useful products. The aims of this project are to gain a fundamental understanding of the reactions of the most commonly used halons, 1301, 1211 and 2402, and perform a detailed examination of catalytic processes for conversion of halons to HFCs. The primary outcome from the study will be the development of a process specifically designed to convert halons into useful products. This will assist with efforts to phase out continued halon use.Read moreRead less
Transformation of halons and CFC to valuable products through their reaction with methane. Halons and CFCs are well known as ozone depleting substances (ODS). This project pursues the development of a novel process to transform stockpiles of halons and CFCs into vinylidene difluoride (C2H2F2). Vinylidene difluoride is a highly valued commodity, used in the synthesis of heat resistant materials. The primary aim of this research is to gain understanding of the role of catalysts during conversion o ....Transformation of halons and CFC to valuable products through their reaction with methane. Halons and CFCs are well known as ozone depleting substances (ODS). This project pursues the development of a novel process to transform stockpiles of halons and CFCs into vinylidene difluoride (C2H2F2). Vinylidene difluoride is a highly valued commodity, used in the synthesis of heat resistant materials. The primary aim of this research is to gain understanding of the role of catalysts during conversion of CFC 12 and halon 1211 into the desired reaction product. The signifigance of the project is that it will facilitate development of a process for non-destructive treatment of ozone depleting substances. The major outcome of the proposed research is it will lay the technical foundation for the development of an energy efficient process to convert rather than destroy these ODS.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
Multiscale modeling of flexible fibrous suspensions under flow. The outcome of this work will be a comprehensive theoretical framework by which microstructural information is distilled into an accurate multiscale model of fibre suspensions, readily applicable to industrial situations. This work will have a direct impact on the design capability and performance of a wide range of mechanisms and industrial processes involving fibres. The development of better models for industrially useful suspen ....Multiscale modeling of flexible fibrous suspensions under flow. The outcome of this work will be a comprehensive theoretical framework by which microstructural information is distilled into an accurate multiscale model of fibre suspensions, readily applicable to industrial situations. This work will have a direct impact on the design capability and performance of a wide range of mechanisms and industrial processes involving fibres. The development of better models for industrially useful suspensions offers a competitive advantage for a diverse range of Australian industries, from the paper manufacture sector, to the production of fibre-filled composite materials.Read moreRead less