Multi-component Gas Transport in Deep Coal. The understanding of multi-component gas flow in coal underlies the use, management and optimization of deep coal as an economic resource for methane recovery, CO2 sequestration, pipeline gas storage and underground gasification. This project will develop a predictive reservoir flow model for deep coal behavior under asymmetric, dynamically evolving internal and external stresses, during multi-component gas release or injection. A confluence of new too ....Multi-component Gas Transport in Deep Coal. The understanding of multi-component gas flow in coal underlies the use, management and optimization of deep coal as an economic resource for methane recovery, CO2 sequestration, pipeline gas storage and underground gasification. This project will develop a predictive reservoir flow model for deep coal behavior under asymmetric, dynamically evolving internal and external stresses, during multi-component gas release or injection. A confluence of new tools including a large sample, high pressure, triaxial stress permeameter, and micron resolved 3D reconstruction of the coal cleat and pore structure, will provide physical parameters to the fundamentally based, competitive transport and adsorption/desorption model.Read moreRead less
Controlled Crystallisation of Bioactives. The new technologies developed in this project for bioactive recovery and particle design will allow the development of new value added products for Australia's growing biotechnology industry, especially in pharmaceuticals, neutraceuticals and functional foods. Two PhD students will receive excellent research training to then move into research and development in these industries.
Biodegradable immuno-therapeutic nanoparticles. The national benefit relates directly to Promoting and Maintaining Good Health through preventative healthcare as this project will develop a new vaccine delivery platform that will contribute to preventing a host of diseases such as viral infections and malaria. The health benefits of better vaccines directly enhance a Healthy Start to Life and Ageing Well. This area of nanoparticle therapies is a global 'hot spot' and this multi-disciplinary team ....Biodegradable immuno-therapeutic nanoparticles. The national benefit relates directly to Promoting and Maintaining Good Health through preventative healthcare as this project will develop a new vaccine delivery platform that will contribute to preventing a host of diseases such as viral infections and malaria. The health benefits of better vaccines directly enhance a Healthy Start to Life and Ageing Well. This area of nanoparticle therapies is a global 'hot spot' and this multi-disciplinary team could make huge and rapid progressions in this area of therapeutics. New intellectual property in the area of therapeutic particle production is the cornerstone of this project and could deliver lasting economic benefits through the creation of new health products and patents.Read moreRead less
Synthesis of nanoparticles by impinging liquid-jet precipitation for inhalation drug delivery. The project aim is to develop a state of the art technology for the efficient, reliable and economical production of nanoparticles of drugs suitable for inhalation delivery to the lung. Nanoparticles can penetrate deeper into the lung where they deposit and dissolve faster for enhanced therapeutic effects. The project will focus on both the production process and the particle properties for aerosol a ....Synthesis of nanoparticles by impinging liquid-jet precipitation for inhalation drug delivery. The project aim is to develop a state of the art technology for the efficient, reliable and economical production of nanoparticles of drugs suitable for inhalation delivery to the lung. Nanoparticles can penetrate deeper into the lung where they deposit and dissolve faster for enhanced therapeutic effects. The project will focus on both the production process and the particle properties for aerosol administration. Successful development of the technology will not only gain new knowledge in the key area of nanotechnology, but also lead to better inhalation therapy to benefit patients.Read moreRead less
Synthesis of oligomers in dense carbon dioxide. The aim of the project is to develop a novel technique for the synthesis of low molecular weight polymers (oligomers) using dense carbon dioxide as a polymerisation solvent. The use of elevated pressure is the major impediment to the commercialisation of such technology. The technique proposed in this project will enable oligomers to be produced at greatly reduced operating pressures and may lead to a more general procedure for conducting other t ....Synthesis of oligomers in dense carbon dioxide. The aim of the project is to develop a novel technique for the synthesis of low molecular weight polymers (oligomers) using dense carbon dioxide as a polymerisation solvent. The use of elevated pressure is the major impediment to the commercialisation of such technology. The technique proposed in this project will enable oligomers to be produced at greatly reduced operating pressures and may lead to a more general procedure for conducting other types of polymer synthesis in dense carbon dioxide.Read moreRead less
A New Photocatalysis Hybrid System in Wastewater Treatment for Reuse. This project would particularly be useful to unreticulated sewage systems and small sewage treatment plants are prevalent in the coastal areas of NSW and Queensland and the interior parts of Northern Territory with small and isolated communities. Opportunities for demonstrating the successful application of this cost effective method of waste water treatment to appropriate stakeholders through participation in workshops, semin ....A New Photocatalysis Hybrid System in Wastewater Treatment for Reuse. This project would particularly be useful to unreticulated sewage systems and small sewage treatment plants are prevalent in the coastal areas of NSW and Queensland and the interior parts of Northern Territory with small and isolated communities. Opportunities for demonstrating the successful application of this cost effective method of waste water treatment to appropriate stakeholders through participation in workshops, seminars and events will be explored. The study can also be extended to small and medium sized industries in their wastewater treatment. The technology is of direct benefit within the Nation and also has significant export potential. Read moreRead less
Fluidised bed nanoparticle reactors for gas-solid catalytic reactions. This is a "frontier technologies" (nanotechnology) project and promises to open up new opportunities for exciting development in molecular engineering. Catalytic gas-solid reactions are among the most important reactions in chemical industry and energy industry. The novel fluidised bed nanoparticle catalytic reactor is expected to have many important advantages over the conventional porous supported catalyst system. These rea ....Fluidised bed nanoparticle reactors for gas-solid catalytic reactions. This is a "frontier technologies" (nanotechnology) project and promises to open up new opportunities for exciting development in molecular engineering. Catalytic gas-solid reactions are among the most important reactions in chemical industry and energy industry. The novel fluidised bed nanoparticle catalytic reactor is expected to have many important advantages over the conventional porous supported catalyst system. These reactors promise to minimise the waste product generation from chemical and energy industries and so offer great benefit for the environment. Young researchers involved in the project will be equipped with knowledge at the forefront of nanotechnology, enabling them to contribute to Australia's new, high technology future.Read moreRead less
Dispersion of Pharmaceutical Powders as Aerosols for Inhalation. The detrimental environmental effects of chlorofluorocarbons (CFC) have led to an urgent need of a replacement for the existing CFC propellant driven medical inhalers. Generation of aerosols from dry powders has enormous potential as an alternative for delivery of drugs to the lung. The aims of the proposed research are to investigate specifically the powder surface properties and the orperating conditions on the dispersion of po ....Dispersion of Pharmaceutical Powders as Aerosols for Inhalation. The detrimental environmental effects of chlorofluorocarbons (CFC) have led to an urgent need of a replacement for the existing CFC propellant driven medical inhalers. Generation of aerosols from dry powders has enormous potential as an alternative for delivery of drugs to the lung. The aims of the proposed research are to investigate specifically the powder surface properties and the orperating conditions on the dispersion of powders as aerosols for inhalation. The knowledge gained will acclerate the design of better powder aerosols, thus benefiting patients suffering from respiratory and systemic diseases.Read moreRead less
Development of a Model Relating Aggregate Properties with Aggregation Conditions for Design and Control Purposes. The project aims to understand the role of shear and other important parameters in the aggregation of nano- and micron-sized particles through fundamental studies on different particulate systems and shear environments. The knowledge will be used to develop an engineering model relating the floc properties to system conditions, thus allowing the utilisation of experimental data to fu ....Development of a Model Relating Aggregate Properties with Aggregation Conditions for Design and Control Purposes. The project aims to understand the role of shear and other important parameters in the aggregation of nano- and micron-sized particles through fundamental studies on different particulate systems and shear environments. The knowledge will be used to develop an engineering model relating the floc properties to system conditions, thus allowing the utilisation of experimental data to full-scale operations without eschewing their relevance. Project outcomes include a comprehensive guideline to set optimum conditions required to generate flocs with desirable properties for control and design purposes, with applicability extending from solid-liquid separation to nano-material synthesis, and various processes involving particle aggregation.Read moreRead less
Anisotropic behaviour of coal for coalbed methane recovery and CO2 geosequestration. Amongst the cheapest and safest options for clean energy are to use natural gas from coal seams for electricity and fuel production and then permanently store carbon dioxide within the depleted seams. This requires information about the underground behaviour of coal at a level of detail which is not available. In particular, the directional and dynamic response of coal to changes in pressure, stress and gas in ....Anisotropic behaviour of coal for coalbed methane recovery and CO2 geosequestration. Amongst the cheapest and safest options for clean energy are to use natural gas from coal seams for electricity and fuel production and then permanently store carbon dioxide within the depleted seams. This requires information about the underground behaviour of coal at a level of detail which is not available. In particular, the directional and dynamic response of coal to changes in pressure, stress and gas interactions is required, which is the subject of this project. Coal bed methane is rapidly growing into a multi-billion dollar industry for Australia. The geosequestration of carbon dioxide in deep coal is widely recognised presenting a secure and economical opportunity for greenhouse gas control. Read moreRead less