Fundamental Data and Thermodynamic Modelling for Cryogenic LNG Fluids to Improve Process Design, Simulation and Operation. This research will contribute to a more environmentally sustainable Australia because it will promote the use of natural gas as a fuel supply which produces significantly fewer greenhouse gases than oil or coal. This project will improve the ability of engineers to reliably simulate LNG production plants as well as test new processes and technologies with the potential to in ....Fundamental Data and Thermodynamic Modelling for Cryogenic LNG Fluids to Improve Process Design, Simulation and Operation. This research will contribute to a more environmentally sustainable Australia because it will promote the use of natural gas as a fuel supply which produces significantly fewer greenhouse gases than oil or coal. This project will improve the ability of engineers to reliably simulate LNG production plants as well as test new processes and technologies with the potential to increase efficiency or revenue. Consequently, the level of over-engineering and, thus, the capital and operational costs of such plants will decrease. This in turn will promote the development of Australian gas reserves, particularly for those fields currently on the margins of economic viability.Read moreRead less
Increased liquified natural gas (LNG) production efficiency through nitrogen and carbon dioxide capture using high-pressure cryogenic adsorption onto tailored nanopore substrates. This research will contribute to a more environmentally sustainable Australia because it will promote the use of natural gas as a fuel supply which produces significantly less greenhouse gases than oil or coal. It will contribute to the harnessing of some of Australia's largest gas reserves, like the Gorgon field, whic ....Increased liquified natural gas (LNG) production efficiency through nitrogen and carbon dioxide capture using high-pressure cryogenic adsorption onto tailored nanopore substrates. This research will contribute to a more environmentally sustainable Australia because it will promote the use of natural gas as a fuel supply which produces significantly less greenhouse gases than oil or coal. It will contribute to the harnessing of some of Australia's largest gas reserves, like the Gorgon field, which are contaminated with large amounts of CO2 and are not yet economically viable. The removal of N2 from natural gas will reduce the cost of producing LNG which is the only method Australia can use to access global gas markets. The new adsorbent materials developed for this work may enhance other research programmes attempting to capture and sequester CO2 from industrial flue gases.Read moreRead less
Integration of Life Cycle Analysis, EnternE, and Economic Models to Sustainable Regional Development. This project involves the development of a novel decision-making framework to support the transition to sustainability within regions. The approach is based on integrating the methodologies of Life Cycle Analysis, externality costing and traditional economic analysis to assess the tradeoffs between economic, environmental and social outcomes. The integration of these techniques will allow the re ....Integration of Life Cycle Analysis, EnternE, and Economic Models to Sustainable Regional Development. This project involves the development of a novel decision-making framework to support the transition to sustainability within regions. The approach is based on integrating the methodologies of Life Cycle Analysis, externality costing and traditional economic analysis to assess the tradeoffs between economic, environmental and social outcomes. The integration of these techniques will allow the relative magnitude of positive and negative impacts of development decisions to be reported as an economic unit. This will allow the tradeoffs that occur between economic, environmental and social considerations to be quantified and the sustainability of a development or planning scenario to be assessed.Read moreRead less
Modelling of Nitric Oxides and Carbon Monoxide Emissions from Bagasse-Fires Boilers. The project aims to develop computational models to predict emissions of nitric oxides and carbon monoxide from sugar-mill boilers burning bagasse. Bagasse combustion does not contribute to greenhouse gas emissions and clean and efficient combustion of this fuel has become very important for the sugar industry and for Australia. The project combines the opportunity of direct boiler measurements by SRI with the m ....Modelling of Nitric Oxides and Carbon Monoxide Emissions from Bagasse-Fires Boilers. The project aims to develop computational models to predict emissions of nitric oxides and carbon monoxide from sugar-mill boilers burning bagasse. Bagasse combustion does not contribute to greenhouse gas emissions and clean and efficient combustion of this fuel has become very important for the sugar industry and for Australia. The project combines the opportunity of direct boiler measurements by SRI with the modelling expertise at the University to develop combustion-kinetics models for these species. The models will be incorporated into the previously developed computational fluid dynamics - combustion code of the furnace to give the capability of emission prediction as a function of burner operating conditions and fuel parameters.Read moreRead less
Innovative zero-energy membrane technologies to reduce water consumption in the dairy industry. The Australian dairy industry not only plays a critical role in our way of life, but processed dairy products contribute to 12% or $3.27b to Australia's export revenue. It has learnt to adapt to changing market demands through innovative membrane technologies, but now energy and water are key issues. This project aims to reduce water consumption in dairy processing by treating waste streams using nove ....Innovative zero-energy membrane technologies to reduce water consumption in the dairy industry. The Australian dairy industry not only plays a critical role in our way of life, but processed dairy products contribute to 12% or $3.27b to Australia's export revenue. It has learnt to adapt to changing market demands through innovative membrane technologies, but now energy and water are key issues. This project aims to reduce water consumption in dairy processing by treating waste streams using novel membrane processes including membrane distillation. The energy is supplied from low grade waste heat, offsetting the need to supply more power to the plant. Reducing the need for water in a zero-energy way will ensure the thriving dairy industry remains cost competitive and an integral part of Australia's culture and economy.Read moreRead less
Innovative strategy for salt management and water recovery from newsprint mill effluent using membrane processes. Newsprint mills are a major employer in regional Australia. The mills are located in environmentally sensitive areas, consume large quantities of water and return high levels of salt to the environment. To remain competitive the newsprint industry, like all industries in regional Australia must develop new strategies for water recycling and salt management. Successful execution of t ....Innovative strategy for salt management and water recovery from newsprint mill effluent using membrane processes. Newsprint mills are a major employer in regional Australia. The mills are located in environmentally sensitive areas, consume large quantities of water and return high levels of salt to the environment. To remain competitive the newsprint industry, like all industries in regional Australia must develop new strategies for water recycling and salt management. Successful execution of this project will minimize water consumption in newsprint production, mitigate the effects of increased sodicity in soils irrigated with mill effluent and accelerate the commercial development a hydrophobic microporous membrane for water recycling and salt removal in environmentally sensitive areas of inland Australia.Read moreRead less
Increasing the operational lifetime and optimising the design of crankcase oil-mist filters. Australia is one of the largest (per capita) users worldwide of heavy diesel engines, within sectors such as transport, mining, construction, shipping and power generation (usage of many of the above is concentrated in regional communities e.g. mining). This work will minimise emissions from such industries, as well as reduce lubricant oil usage - thereby maximising waste oil recovery and reuse (approx 5 ....Increasing the operational lifetime and optimising the design of crankcase oil-mist filters. Australia is one of the largest (per capita) users worldwide of heavy diesel engines, within sectors such as transport, mining, construction, shipping and power generation (usage of many of the above is concentrated in regional communities e.g. mining). This work will minimise emissions from such industries, as well as reduce lubricant oil usage - thereby maximising waste oil recovery and reuse (approx 5500 tonnes p.a.). Oil mists can be regarded as volatile organic compounds (VOCs) for the purposes of CO2 equivalent emissions, so therefore, the efficient capture of oil mists will reduce carbon emissions from the above industries in Australia.Read moreRead less
Novel electric field induced coupling technique for liquid-phase heteroepitaxial growth of carbon thin films with diamond-like structure. The aim of the project is the growth of carbon thin films with a robust diamond-like structure for high performance electronic applications via the development of a new growth technique: Electric Field Induced Coupling (EFIC), which is based on liquid-phase layer-by-layer heteroepitaxial growth. The EFIC technique employing unique polarization-induced growth w ....Novel electric field induced coupling technique for liquid-phase heteroepitaxial growth of carbon thin films with diamond-like structure. The aim of the project is the growth of carbon thin films with a robust diamond-like structure for high performance electronic applications via the development of a new growth technique: Electric Field Induced Coupling (EFIC), which is based on liquid-phase layer-by-layer heteroepitaxial growth. The EFIC technique employing unique polarization-induced growth will significantly enhance technological output compared to existing technologies by overcoming current difficulties with expensive and complicated production methods. Ambient temperatures and pressures employed by the technique will enable us to form diamond-based semiconductors at low cost with sufficient speed and the properties required for industrial production.
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Effect of cane sugar juice composition on scaling rate and scale composition in sugar mills. The Australia sugar industry produces 1100 GWh of renewable electricity annually, abating ~1.1 M tonnes of CO2-equivalent of greenhouse gases. This can be increased if the juice evaporation performance, which largely determines the energy efficiency of the sugar factory, can be improved through reduced fouling of evaporators. This project will investigate the effect of juice composition on fouling of sug ....Effect of cane sugar juice composition on scaling rate and scale composition in sugar mills. The Australia sugar industry produces 1100 GWh of renewable electricity annually, abating ~1.1 M tonnes of CO2-equivalent of greenhouse gases. This can be increased if the juice evaporation performance, which largely determines the energy efficiency of the sugar factory, can be improved through reduced fouling of evaporators. This project will investigate the effect of juice composition on fouling of sugar factory evaporators so that a model to predict scale type and scale propensity can be developed. This will enable the development of better scale control strategies, resulting in reduced energy usage and reduced usage of the hazardous and polluting chemicals required to remove scale.Read moreRead less
Heat Transfer Mechanisms in an Indirectly Fired Rotary Kiln with Lifters and Its Role in Scaling. This project will apply heat transfer principles to improve and optimise the design and performance of ANSAC's innovative kiln technology for a wide range of process applications. By understanding the mechanisms of heat transfer involved in the working of the proprietary technology, major factors limiting the performance of the kiln can be identified, resulting in design criteria that link key opera ....Heat Transfer Mechanisms in an Indirectly Fired Rotary Kiln with Lifters and Its Role in Scaling. This project will apply heat transfer principles to improve and optimise the design and performance of ANSAC's innovative kiln technology for a wide range of process applications. By understanding the mechanisms of heat transfer involved in the working of the proprietary technology, major factors limiting the performance of the kiln can be identified, resulting in design criteria that link key operating parameters for the kiln scaling and performance forecast. The research outcomes will provide a scientific basis that underpins the development of an Australian technology and supports the growth of a new Australian small business, creating employment opportunities within Australia.Read moreRead less