Controlling hydrate slurry flow to enable deepwater oil and gas production. This project aims to investigate the plugging of hydrate slurries in pipelines to determine under what conditions they will flow satisfactorily without forming a blockage. Hydrate blockages are expensive and hazardous occurrences in oil and gas operations, so current prevention systems aim to avoid hydrate formation altogether through over-design. These over-designed hydrate prevention systems are extremely expensive to ....Controlling hydrate slurry flow to enable deepwater oil and gas production. This project aims to investigate the plugging of hydrate slurries in pipelines to determine under what conditions they will flow satisfactorily without forming a blockage. Hydrate blockages are expensive and hazardous occurrences in oil and gas operations, so current prevention systems aim to avoid hydrate formation altogether through over-design. These over-designed hydrate prevention systems are extremely expensive to build and costly to run during the operations phase. The project intends to examine the behaviour of hydrate slurry flow as a function of the oil's properties, amount of water and degree of turbulence. Outcomes are intended to be a sophisticated approach to avoiding hydrate blockages that is safe but more efficient and less costly.Read moreRead less
Syngas Production Using Catalytic Carbon Dioxide Dry Reforming. This project intends to pave the way for turning remote low-value Australian resources and greenhouse gases into valuable products. Most of Australian natural gas reserves are located in the remote north-west shelf, and many are small scale and thus cannot be economically harnessed using conventional methods such as pipeline transportation or gas liquefaction. In this project, a dry reforming reactor with novel catalysts will be des ....Syngas Production Using Catalytic Carbon Dioxide Dry Reforming. This project intends to pave the way for turning remote low-value Australian resources and greenhouse gases into valuable products. Most of Australian natural gas reserves are located in the remote north-west shelf, and many are small scale and thus cannot be economically harnessed using conventional methods such as pipeline transportation or gas liquefaction. In this project, a dry reforming reactor with novel catalysts will be designed for converting natural gas and carbon dioxide to syngas, which is an intermediate step of gas-to-liquid plant. By innovatively integrating advanced catalysis and heating technologies, reactor weight and operational costs will be minimised.Read moreRead less
Investigation of contaminant distribution, deposition and poisoning of cathodes of solid oxide fuel cells. The purpose of the project is to fundamentally study the poisoning process of contaminants on the performance degradation and activity of solid oxide fuel cells (SOFC) cathode and to develop contaminant-tolerant cathodes, so as to ensure the product life over five years of the BlueGen SOFC systems being developed by Ceramic Fuel Cells Ltd. in Melbourne.
Model studies of Australian lump ore applied to blast furnace ironmaking. Ore lump use in ironmaking blast furnaces (BFs) requires no preprocessing and has a lower carbon footprint. However, it suffers various technical problems. This project aims to understand and optimize the conditions for such operations. This will be achieved by means of a combined theoretical and experimental program, involving the use of state-of-the-art multiscale computer modelling and simulation techniques. The researc ....Model studies of Australian lump ore applied to blast furnace ironmaking. Ore lump use in ironmaking blast furnaces (BFs) requires no preprocessing and has a lower carbon footprint. However, it suffers various technical problems. This project aims to understand and optimize the conditions for such operations. This will be achieved by means of a combined theoretical and experimental program, involving the use of state-of-the-art multiscale computer modelling and simulation techniques. The research outcomes will be tested in the design and control of lump charging operations in practice through collaboration with the industrial partner. This will ultimately increase Australian ore lump usage in BFs, leading to significant financial and environmental benefits to Australia and the entire steel industry worldwide.Read moreRead less
Low emission iron and steelmaking using hydrogen to pre-reduce lump ore. This project aims to develop and apply a new route of lump iron ore pre-reduction with hydrogen or H2-enriched gases for ironmaking to minimise CO2 emission from steel production. The route will be built up on the base of H2 reduction kinetics of iron ore and with novel technologies such as CO2 recycle and H2-heating using hot blast, underpinning the hydrogen economy by addressing the environmental concerns in mineral and s ....Low emission iron and steelmaking using hydrogen to pre-reduce lump ore. This project aims to develop and apply a new route of lump iron ore pre-reduction with hydrogen or H2-enriched gases for ironmaking to minimise CO2 emission from steel production. The route will be built up on the base of H2 reduction kinetics of iron ore and with novel technologies such as CO2 recycle and H2-heating using hot blast, underpinning the hydrogen economy by addressing the environmental concerns in mineral and steel industries. It is not only significant for low-carbon steel production, but also for better fundamental understanding to develop the future zero-emission iron and steelmaking with hydrogen. The project will be very beneficent because it increases the use of lump iron ore and expends Australian export of iron ores.Read moreRead less
Computational methods in atomic collision theory. We will develop computational methods for solving interactions between particles on the atomic scale. Computational problems, of particular interest to the industry partner, are the treatment of large-scale ill-conditioned linear systems, and the extension of the Gaussian molecular structure package to collision physics. We have been world-leaders in the field of atomic collision theory for almost a decade, and now, utilising the latest software ....Computational methods in atomic collision theory. We will develop computational methods for solving interactions between particles on the atomic scale. Computational problems, of particular interest to the industry partner, are the treatment of large-scale ill-conditioned linear systems, and the extension of the Gaussian molecular structure package to collision physics. We have been world-leaders in the field of atomic collision theory for almost a decade, and now, utilising the latest software and hardware, will have the capacity to extend the numerical techniques to a vast range of collision systems of interest to science and industry, where visualisation and sheer computer power will play a major role in both
code development and production runs.Read moreRead less
Elastic and biodegradable sponges/aerogels from exfoliated silk nanofibres . The aim of this project is to investigate methods to produce highly porous elastic sponges from silk protein nanofibres. These sponges will have optimal mechanical, insulation and degradation properties making them suitable for a wide range of applications including the biomedical and personal care sectors, where current products have significant drawbacks due to the use of non-biodegradable synthetic materials. Outco ....Elastic and biodegradable sponges/aerogels from exfoliated silk nanofibres . The aim of this project is to investigate methods to produce highly porous elastic sponges from silk protein nanofibres. These sponges will have optimal mechanical, insulation and degradation properties making them suitable for a wide range of applications including the biomedical and personal care sectors, where current products have significant drawbacks due to the use of non-biodegradable synthetic materials. Outcomes include new knowledge on controlling porous structures and tailoring properties to targeted applications. This project, by laying the groundwork for a new generation of bio-based materials, will benefit the Australian advanced manufacturing sector, and enhance Australia's standing in materials science and engineering.Read moreRead less
Extending Leadership and Learning: Improving the effectiveness of new learning technology for culture change and improved regional business performance. This research project explores the complex relationships between new technology and learning, and the subsequent impact on organisational change and business effectiveness. The study will examine the use of video-conferencing and on-line training packages in the regional locations of a major bank, in order to determine more effective configurati ....Extending Leadership and Learning: Improving the effectiveness of new learning technology for culture change and improved regional business performance. This research project explores the complex relationships between new technology and learning, and the subsequent impact on organisational change and business effectiveness. The study will examine the use of video-conferencing and on-line training packages in the regional locations of a major bank, in order to determine more effective configurations of learning architecture that support organisational culture change and impact on business performance. The organisation has a strategic commitment to cultural change towards leadership and learning. This research intends to examine how new learning technologies can more effectively impact on achieving such cultural change and improved regional equity.Read moreRead less
A Cost-Effective System for Monitoring Lightning Strikes Across Australasia. Lightning causes many major fires in Australia, and rural fire managers would benefit from access to lighting data. Lightning data have been prohibitively expensive because acquiring them requires a dense monitoring network. Low Frequency Electromagnetic Research Ltd (LF*EM) has developed an alternative, cost-effective technology for monitoring lightning based on a sparse network of stations monitoring VLF radiation. We ....A Cost-Effective System for Monitoring Lightning Strikes Across Australasia. Lightning causes many major fires in Australia, and rural fire managers would benefit from access to lighting data. Lightning data have been prohibitively expensive because acquiring them requires a dense monitoring network. Low Frequency Electromagnetic Research Ltd (LF*EM) has developed an alternative, cost-effective technology for monitoring lightning based on a sparse network of stations monitoring VLF radiation. We propose to translate LF*EM's basic science results into a product that can deliver lightning data to fire managers and other users across Oceania.Read moreRead less
Towards the health care system of the future: The role of institutional entrepreneurship in service redesign and innovation. The reform of healthcare systems presents one of the most pressing and fundamental challenges for nations such as Australia. To date, hospital redesign and innovation initiatives have had limited impacts and outcomes at a system level with improvements limited to discrete areas. The aim of this inter-disciplinary research is to promote the scaling up of such initiatives to ....Towards the health care system of the future: The role of institutional entrepreneurship in service redesign and innovation. The reform of healthcare systems presents one of the most pressing and fundamental challenges for nations such as Australia. To date, hospital redesign and innovation initiatives have had limited impacts and outcomes at a system level with improvements limited to discrete areas. The aim of this inter-disciplinary research is to promote the scaling up of such initiatives to have systems-wide outcomes. The research aims to address institutional constraints and organisational factors and will develop practical frameworks, processes and resources. These intend to enable hospitals to develop organisational and leadership capacities to ensure investments in redesign and innovation have ‘whole system’ economic and healthcare benefits.Read moreRead less