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
Modelling of Adsorption Dynamics in Microporous Adsorbents Using Fractional Order Diffusion Equations. This project investigates the use of fractional order diffusion equations in modelling adsorption dynamics in microporous carbons. The long tail behaviour of adsorption processes cannot be readily explained by the classical second order Fickian model, and makes adsorption a candidate for the use of fractional order diffusion equations that have the potential to model such features. In the pre ....Modelling of Adsorption Dynamics in Microporous Adsorbents Using Fractional Order Diffusion Equations. This project investigates the use of fractional order diffusion equations in modelling adsorption dynamics in microporous carbons. The long tail behaviour of adsorption processes cannot be readily explained by the classical second order Fickian model, and makes adsorption a candidate for the use of fractional order diffusion equations that have the potential to model such features. In the present project we shall develop suitable numerical techniques for solving the fractional order diffusion model, and apply these to the interpretation of experimental kinetic data. The outcome will be an improved model of adsorption dynamics considering the fractal nature of the solid.Read moreRead less
Investigation and Prediction of the Novel Properties of Dendrimers. Dendrimers are a new class of highly branched polymers, which have, until now, been difficult to characterise by conventional means. This project will develop and apply molecular simulation techniques to reveal the chemical and physical properties of dendrimers and their interactions with other molecules. These novel molecules potentially have beneficial applications to areas such as drug delivery and electronic materials. Th ....Investigation and Prediction of the Novel Properties of Dendrimers. Dendrimers are a new class of highly branched polymers, which have, until now, been difficult to characterise by conventional means. This project will develop and apply molecular simulation techniques to reveal the chemical and physical properties of dendrimers and their interactions with other molecules. These novel molecules potentially have beneficial applications to areas such as drug delivery and electronic materials. The outcome of this work will assist in the exploitation of this beneficial application and will provide the basis for efficient processing.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
Production of a compact disk summarising the evolution and impact of Boger fluids. In 1977 the discovery of a unique class of materials, now called Boger fluids, was reported in the Journal of Non-Newtonian Fluid Mechanics. These materials have had a huge impact in the development of non-Newtonian fluid mechanics, to the extent that the Institute of Non-Newtonian Fluid Mechanics in the UK have offered to make a cd documenting the impact of these materials. Funding is requested to support, in p ....Production of a compact disk summarising the evolution and impact of Boger fluids. In 1977 the discovery of a unique class of materials, now called Boger fluids, was reported in the Journal of Non-Newtonian Fluid Mechanics. These materials have had a huge impact in the development of non-Newtonian fluid mechanics, to the extent that the Institute of Non-Newtonian Fluid Mechanics in the UK have offered to make a cd documenting the impact of these materials. Funding is requested to support, in part, the documentation of this important discovery.Read moreRead less
Modelling of Adsorption Dynamics in Microporous Solids based on Molecular Dynamics Computations. This project seeks to incorporate non-equilibrium molecular dynamics calculations into particle scale models for adsorption kinetics. Molecular dynamics calculations will be performed for hydrocarbon molecules in small pores to obtain transport coefficients in pores of various sizes, at various bulk gas pressures and temperatures. These transport coefficients will be used in particle scale models t ....Modelling of Adsorption Dynamics in Microporous Solids based on Molecular Dynamics Computations. This project seeks to incorporate non-equilibrium molecular dynamics calculations into particle scale models for adsorption kinetics. Molecular dynamics calculations will be performed for hydrocarbon molecules in small pores to obtain transport coefficients in pores of various sizes, at various bulk gas pressures and temperatures. These transport coefficients will be used in particle scale models to obtain a dynamic model, which will be utilised to interpret experimental data from the literature as well as that being obtained in our laboratory. Such first principles-based modelling has not been performed before at the particle scale, and will mitigate the empiricism in existing approaches.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
Drag Force on Bubbles and Particles in Turbulent Flows. Australian exports are dominated by the minerals, metallurgical and chemicals industries, with minerals exports worth at least $40 billion annually. Many of the production processes are underpinned by the complex interaction between particles, bubbles and liquids. It is important that we understand the complex interactions taking place. This will enable us to improve existing operations and also to design completely new technologies, especi ....Drag Force on Bubbles and Particles in Turbulent Flows. Australian exports are dominated by the minerals, metallurgical and chemicals industries, with minerals exports worth at least $40 billion annually. Many of the production processes are underpinned by the complex interaction between particles, bubbles and liquids. It is important that we understand the complex interactions taking place. This will enable us to improve existing operations and also to design completely new technologies, especially in the emerging fields of nano and biotechnology. This project is important because it adds to our knowledge in the national priority area of Transforming Australian Industries, and its success will ensure that our industries remain at the forefront of innovation and are globally competitive. 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
Development of ultrastable high flux hydrophobic pervaporation membranes for organic separations. Perfluorinated glassy polymers (Teflons AF) as membrane materials are endowed with unique fluxes and excellent stability when in contact with various liquid organic mixtures. However, they have never been explored as membrane materials for pervaporation. The aims of this project are therefore to evaluate the applicability of composite membranes based on amorphous Teflons AF to the separation of orga ....Development of ultrastable high flux hydrophobic pervaporation membranes for organic separations. Perfluorinated glassy polymers (Teflons AF) as membrane materials are endowed with unique fluxes and excellent stability when in contact with various liquid organic mixtures. However, they have never been explored as membrane materials for pervaporation. The aims of this project are therefore to evaluate the applicability of composite membranes based on amorphous Teflons AF to the separation of organic mixtures and the removal of organic pollutants from water. The outcomes of this project will be the development of novel environmentally friendly processes in the petrochemical and biotechnology industries as well as ecologically efficient methods of waste water treatment.Read moreRead less