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Frictional and viscous effects during transport in nanopores. Gas mixtures exposed to materials containing molecular sized pores (nanopores) are adsorbed, forming states of matter not existing in the bulk. Differential forces acting on the components of mixtures promote industrially and environmentally important separations. However, transport of confined fluids has been poorly understood. Recently we have made progress using computer simulation, and have proposed a highly successful theory. ....Frictional and viscous effects during transport in nanopores. Gas mixtures exposed to materials containing molecular sized pores (nanopores) are adsorbed, forming states of matter not existing in the bulk. Differential forces acting on the components of mixtures promote industrially and environmentally important separations. However, transport of confined fluids has been poorly understood. Recently we have made progress using computer simulation, and have proposed a highly successful theory. These investigations have revealed the crucial role of scattering from the surface atoms of the confining solid. Theoretical investigation of single spherical species has been initiated, and extension to other species and to mixtures is now envisaged.Read moreRead less
Gondwana in East Asia? A biogeographic test using Permian marine invertebrate biota. Combining Permian fossil collections from key Australian, NE Chinese, East Russian and Japanese localities, coupled with a detailed quantitative biogeographical analysis, this project will provide fundamental data for evaluating current plate tectonic models regarding the palaeo-positions of some of the tectonic blocks in East Asia. In particular, this project will test, using biogeographical data, the validity ....Gondwana in East Asia? A biogeographic test using Permian marine invertebrate biota. Combining Permian fossil collections from key Australian, NE Chinese, East Russian and Japanese localities, coupled with a detailed quantitative biogeographical analysis, this project will provide fundamental data for evaluating current plate tectonic models regarding the palaeo-positions of some of the tectonic blocks in East Asia. In particular, this project will test, using biogeographical data, the validity of several recently proposed claims that continental East Asia contains some tectonic blocks of Gondwana origin. An improved understanding of the Permian palaeogeographical relationship between Gondwanaland and East Asia is critical for improving geological models for resources exploration and the understanding of earth history.Read moreRead less
Development of the applications of signal processing to mechanical problems and machine diagnostics. It is intended to extend research collaboration in the following areas of interest to both UTC and UNSW:
(1) Dynamics of gears for diagnostics and noise control
(2) Application of blind source separation techniques to mechanical problems
(3) Application of cyclostationary signal analysis techniques to machine diagnostics
(4) Determination of structural dynamic properties from response measure ....Development of the applications of signal processing to mechanical problems and machine diagnostics. It is intended to extend research collaboration in the following areas of interest to both UTC and UNSW:
(1) Dynamics of gears for diagnostics and noise control
(2) Application of blind source separation techniques to mechanical problems
(3) Application of cyclostationary signal analysis techniques to machine diagnostics
(4) Determination of structural dynamic properties from response measurements
(5) Diagnostics of diesel engines and other reciprocating machines.
This project will result in the publication of joint papers in each of these topics, and give material to form the basis of an application for at least one FAIR project in the area of gear noise control and diagnostics.Read moreRead less
An Integrated Ground Deformation Monitoring System Based on the Integration of InSAR, GPS and GIS Technologies. Interferometric Synthetic Aperture Radar (InSAR) can be used to monitor ground deformation at high spatial resolution. When integrated with Global Positioning Systems (GPS) so that atmospheric disturbance in InSAR result can be corrected, deformation can be resolved at sub-centimetre accuracy. The corrected InSAR result can be exported as a data layer into Geographic Information System ....An Integrated Ground Deformation Monitoring System Based on the Integration of InSAR, GPS and GIS Technologies. Interferometric Synthetic Aperture Radar (InSAR) can be used to monitor ground deformation at high spatial resolution. When integrated with Global Positioning Systems (GPS) so that atmospheric disturbance in InSAR result can be corrected, deformation can be resolved at sub-centimetre accuracy. The corrected InSAR result can be exported as a data layer into Geographic Information Systems (GIS) for further analysis. In collaboration with Hong Kong Polytechnic University researchers, the integrated InSAR-GPS-GIS system will be tested in both Hong Kong and Australia. The expected outcomes include a suite of algorithms and software tools capable of operational, cost-effective ground deformation monitoring.Read moreRead less
Microdynamic study of the flow of granular materials in bladed mixers. This project aims to develop a comprehensive understanding of granular mixing mechanics in bladed mixers. The study will be carried out by means of newly developed advanced numerical and experimental techniques to generate particle scale information. The flow and mixing behaviour of particles under different conditions will be analysed at both micro- and macro-scopic levels. The research outcomes such as predictive equations ....Microdynamic study of the flow of granular materials in bladed mixers. This project aims to develop a comprehensive understanding of granular mixing mechanics in bladed mixers. The study will be carried out by means of newly developed advanced numerical and experimental techniques to generate particle scale information. The flow and mixing behaviour of particles under different conditions will be analysed at both micro- and macro-scopic levels. The research outcomes such as predictive equations will be tested by simulating and analysing complicated industrial mixing processes; modelling to improve granulation and breakage will be targets. It will significantly improve the design, optimisation and control of mixing processes that are widely used in many industries.Read moreRead less
Particle scale studies of powder mixing in bladed mixers. Powder handling and processing are widely used in both conventional and modern industries but rarely reach more than 60% of design capacity because of poor fundamental understanding. Such operations are important to Australia in view of the heavy dependence on raw materials processing (about 40% of the GNP). This project will tackle the core problems in powder mixing which is a key operation in many industries. Application of the research ....Particle scale studies of powder mixing in bladed mixers. Powder handling and processing are widely used in both conventional and modern industries but rarely reach more than 60% of design capacity because of poor fundamental understanding. Such operations are important to Australia in view of the heavy dependence on raw materials processing (about 40% of the GNP). This project will tackle the core problems in powder mixing which is a key operation in many industries. Application of the research outcomes can lead to better process or product control, a decrease in energy consumption and an improvement in productivity, which is very helpful to maintaining Australia's leading position in resource, energy, process and allied industries.Read moreRead less
The separation of carbon dioxide from industrial sources using nanoporous carbon. Carbon nanotubes and nanoporous carbon membranes offer the possibility of low cost energy efficient separations of gas mixtures. Possible applications include the purification of greenhouse gases for sequestration and the purification of hydrogen from reformer gas for use in a hydrogen energy economy. The proposed project involves the development of mathematical models and computer simulations to understand and ....The separation of carbon dioxide from industrial sources using nanoporous carbon. Carbon nanotubes and nanoporous carbon membranes offer the possibility of low cost energy efficient separations of gas mixtures. Possible applications include the purification of greenhouse gases for sequestration and the purification of hydrogen from reformer gas for use in a hydrogen energy economy. The proposed project involves the development of mathematical models and computer simulations to understand and optimise the nanoporous structure for different gas separations, and experimental research to produce the carbon nanoporous materials and determine their effectiveness of gas separation.Read moreRead less
Modelling and simulation of emergent behaviour in particulate assemblies under terrestrial and microgravity conditions: a focus on force propagation. Systems and processes involving particulate matter are complex, and due to inadequate understanding and modelling capabilities, rarely reach more than 60% of the design capacity. Given the prominence of these materials in Australia's leading export industries, the potential economic and social impact of this research program is significant. For exa ....Modelling and simulation of emergent behaviour in particulate assemblies under terrestrial and microgravity conditions: a focus on force propagation. Systems and processes involving particulate matter are complex, and due to inadequate understanding and modelling capabilities, rarely reach more than 60% of the design capacity. Given the prominence of these materials in Australia's leading export industries, the potential economic and social impact of this research program is significant. For example, Australia holds the largest known resources of iron ore with annual exports exceeding $3.8 billion; annual wheat exports exceed $3.4 billion and 90% of Australia's sealed roads (granular paved) cost $1 billion per year to maintain. This research will advance knowledge of fundamental behaviour and deliver predictive tools to control and optimise processes involving particulate matter.Read moreRead less
Polymer nanoobjects functionalized by polymer brushes: preparation, organization and integration in devices. The proposed project targets the collaboration between two leading research teams. The University of Marburg is leading in the area of the preparation of nanoobjects, while the research team at CAMD (UNSW) focuses on the preparation of well-controlled polymer structures via RAFT polymerisation. The combined strength of both groups seeks to improve the properties of nanodevices by the atta ....Polymer nanoobjects functionalized by polymer brushes: preparation, organization and integration in devices. The proposed project targets the collaboration between two leading research teams. The University of Marburg is leading in the area of the preparation of nanoobjects, while the research team at CAMD (UNSW) focuses on the preparation of well-controlled polymer structures via RAFT polymerisation. The combined strength of both groups seeks to improve the properties of nanodevices by the attachment of well-defined polymer layers. We expect therefore an optimum scientific output with both groups focusing on their research potency next to being able to access new knowledge. The visit to the German research group enables the Australian researchers access to a leading team in nanotechnology.Read moreRead less
Living Free Radical Polymerization for Nano Technology Applications. The proposed linkage project centres on a series of core projects from both the Australian and German collaborators. These core projects range from the synthesis of multifunctional nano- and micro-sphere particles, block copolymer systems used as efficient vehicles for drug delivery purposes to polymer brushes for nano-wires. The collaborating teams will carry out joint research tasks in the above mentioned fields via the excha ....Living Free Radical Polymerization for Nano Technology Applications. The proposed linkage project centres on a series of core projects from both the Australian and German collaborators. These core projects range from the synthesis of multifunctional nano- and micro-sphere particles, block copolymer systems used as efficient vehicles for drug delivery purposes to polymer brushes for nano-wires. The collaborating teams will carry out joint research tasks in the above mentioned fields via the exchange of the CIs and PhD students. The project is planned for a duration of three years to ensure an in-depth approach to the proposed projects.Read moreRead less