Fundamental study on hydrogen desorption from nanoscale Magnesium (Mg) hydrides. Hydrogen storage is the most challenge in realizing the hydrogen economy, especially for on-board application in hydrogen-driving vehicles. Magnesium is among the few promising candidates of effective, safe, high density and cheap hydrogen storage, which has attracted tremendous interests of research. This project creates an innovative science and technology to solve the critical problem of hydrogen storage that wil ....Fundamental study on hydrogen desorption from nanoscale Magnesium (Mg) hydrides. Hydrogen storage is the most challenge in realizing the hydrogen economy, especially for on-board application in hydrogen-driving vehicles. Magnesium is among the few promising candidates of effective, safe, high density and cheap hydrogen storage, which has attracted tremendous interests of research. This project creates an innovative science and technology to solve the critical problem of hydrogen storage that will enhance the international reputation and impact of Australian research in nanoscience and nanothechnology. Realizing the practical hydrogen storage will also enable hydrogen vehicles soon in Australia that adds Australia great potential to reducing the reliance on fossil fuels and greenhouse emissions.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453426
Funder
Australian Research Council
Funding Amount
$235,000.00
Summary
Access for Australian Researchers to Advanced Neutron Beam Techniques. Neutron scattering is one of the most powerful and important investigative tools in the study of materials. Australia has only a low-flux neutron source, HIFAR, which provides no cold or hot neutrons. This excludes large, important areas of science, such as functional films, polymers, self-assembly systems, biological materials, colloids and emulsions, and real-time in-situ studies.
This application aims to continue Australi ....Access for Australian Researchers to Advanced Neutron Beam Techniques. Neutron scattering is one of the most powerful and important investigative tools in the study of materials. Australia has only a low-flux neutron source, HIFAR, which provides no cold or hot neutrons. This excludes large, important areas of science, such as functional films, polymers, self-assembly systems, biological materials, colloids and emulsions, and real-time in-situ studies.
This application aims to continue Australia's partnership with the world's most intense neutron source, ISIS in the UK, in order to sustain the considerable Australian scientific momentum which now relies on ISIS.
The outcomes will be new science that cannot be generated solely within Australia.
Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882725
Funder
Australian Research Council
Funding Amount
$1,000,000.00
Summary
Access for Australian Researchers to Advanced Neutron Beam Techniques. The major national benefit will be access, by peer review, to the 35 specialised instruments at the world's leading pulsed Neutron and Muon source, ISIS. This complements the access to the eight neutron instruments that will operate at the Australian Reactor OPAL. This will support (or enable) high quality research into areas as diverse as materials development, mineral processing and aspects of biological and medical scien ....Access for Australian Researchers to Advanced Neutron Beam Techniques. The major national benefit will be access, by peer review, to the 35 specialised instruments at the world's leading pulsed Neutron and Muon source, ISIS. This complements the access to the eight neutron instruments that will operate at the Australian Reactor OPAL. This will support (or enable) high quality research into areas as diverse as materials development, mineral processing and aspects of biological and medical science. It will facilitate international collaborations that are important for both research and post-graduate student training.Read moreRead less
Practical Hydrogen Storage for Fuel Cells Electrical Vehicles by Confined Ammonia Borane System. Practical hydrogen storage is critical to make the hydrogen economy a reality, in particular for fuel cells electrical vehicles (FCVE). However, currently there is no approach to satisfy the requirements of hydrogen storage for FCVE, e.g. fulfill the US Department of Energy target for practical hydrogen storage. This project is proposed to develop a new strategy to achieve the goal of practical hyd ....Practical Hydrogen Storage for Fuel Cells Electrical Vehicles by Confined Ammonia Borane System. Practical hydrogen storage is critical to make the hydrogen economy a reality, in particular for fuel cells electrical vehicles (FCVE). However, currently there is no approach to satisfy the requirements of hydrogen storage for FCVE, e.g. fulfill the US Department of Energy target for practical hydrogen storage. This project is proposed to develop a new strategy to achieve the goal of practical hydrogen storage which, if successful, will make FCVE possible in Australia in the near future. It will also be beneficial for reducing the dependence on exported oil and possibly solving critical environmental issues, and thus benefits the Australian economy.Read moreRead less
New Mg-based hydrogen storage material with destabilised hydrides. This project will develop a new magnesium-based hydrogen storage material for applications such as hydrogen-powered automobiles. Clean energy is a global challenge to reduce greenhouse emissions. Safe storage of hydrogen is a key barrier to the widespread implementation of hydrogen as a clean energy carrier. Magnesium is amongst the few materials able to meet the requirements for effective, safe, light-weight and cheap hydrogen s ....New Mg-based hydrogen storage material with destabilised hydrides. This project will develop a new magnesium-based hydrogen storage material for applications such as hydrogen-powered automobiles. Clean energy is a global challenge to reduce greenhouse emissions. Safe storage of hydrogen is a key barrier to the widespread implementation of hydrogen as a clean energy carrier. Magnesium is amongst the few materials able to meet the requirements for effective, safe, light-weight and cheap hydrogen storage. Light metals is a priority area for Australia with our large resources of aluminium and magnesium. Magnesium-based hydrogen storage could create a huge market for Australian magnesium and hydrogen storage systems. Read moreRead less
High Efficient and Reliable Power Converters with Low Electromagnetic Interference Based on an Intelligent Distributed Control System in Train Systems. A large percentage of the old train systems in Australia have old equipment which decreases the efficiency and reliability of the system and they can be replaced by high power smart converters with minimum losses and electromagnetic interference. This project aims to improve the efficiency of train systems by intelligent distributed control syste ....High Efficient and Reliable Power Converters with Low Electromagnetic Interference Based on an Intelligent Distributed Control System in Train Systems. A large percentage of the old train systems in Australia have old equipment which decreases the efficiency and reliability of the system and they can be replaced by high power smart converters with minimum losses and electromagnetic interference. This project aims to improve the efficiency of train systems by intelligent distributed control systems which reduces fuel consumption and greenhouse gas emissions. The outcomes can be applied to other transport systems in Australia. Another benefit is the production of a PhD graduand with significant experience in the use of smart power converters to improve efficiency of all types of transport systems. Read moreRead less
Developing a competitive H2 production suystem based on engineered cells of green algae. The depletion of oil reserves and the effects of global warming make the development of new, clean, sustainable fuel production systems critically important. This frontier technology has the ability to drive solar-powered hydrogen production from water. Extending the system to marine algal cells provides the possibility of coupling clean fuel production with water purification as the product of H2 combustion ....Developing a competitive H2 production suystem based on engineered cells of green algae. The depletion of oil reserves and the effects of global warming make the development of new, clean, sustainable fuel production systems critically important. This frontier technology has the ability to drive solar-powered hydrogen production from water. Extending the system to marine algal cells provides the possibility of coupling clean fuel production with water purification as the product of H2 combustion is pure water. We have already engineered green algae that produce H2 from H2O at a rate ~1000% higher than the Wild-type and through this project will incorporate further improvements with the aim of developing a competitive H2 production system.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668044
Funder
Australian Research Council
Funding Amount
$240,000.00
Summary
Access for Australian Researchers to Advanced Neutron Beam Techniques. The access to ISIS is of strategic benefit to Australia. In the 'run up' to the Replacement Research Reactor that benefit will be increased because of the current upgrade to ISIS and the imminent construction of a second target station to provide the world's best 'cold neutron' facilities.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0346812
Funder
Australian Research Council
Funding Amount
$240,000.00
Summary
Access for Australian Researchers to Advanced Neutron-Beam Techniques. Neutron scattering is one of the most powerful and important investigative tools in the study of materials. Australia has only a low-flux neutron source, HIFAR, which provides no cold or hot neutrons. This excludes large, important areas of science, such as functional films, polymers, self-assembly systems, biological materials, colloids and emulsions, and real-time in-situ studies.
This application aims to continue Australi ....Access for Australian Researchers to Advanced Neutron-Beam Techniques. Neutron scattering is one of the most powerful and important investigative tools in the study of materials. Australia has only a low-flux neutron source, HIFAR, which provides no cold or hot neutrons. This excludes large, important areas of science, such as functional films, polymers, self-assembly systems, biological materials, colloids and emulsions, and real-time in-situ studies.
This application aims to continue Australia's partnership with the world's most intense neutron source, ISIS in the UK, in order to sustain the considerable Australian scientific momentum which now relies on ISIS.
The outcomes will be new science that cannot be generated solely within Australia.
Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560721
Funder
Australian Research Council
Funding Amount
$240,000.00
Summary
Access for Australian Researchers to Advanced Neutron Beam Techniques. Neutron scattering is one of the most powerful and important investigative tools in the study of materials. Australia has only a low-flux neutron source, HIFAR, which provides no cold or hot neutrons. This excludes large, important areas of science, such as functional films, polymers, self-assembly systems, biological materials, colloids and emulsions, and real-time in-situ studies.
This application aims to continue Australi ....Access for Australian Researchers to Advanced Neutron Beam Techniques. Neutron scattering is one of the most powerful and important investigative tools in the study of materials. Australia has only a low-flux neutron source, HIFAR, which provides no cold or hot neutrons. This excludes large, important areas of science, such as functional films, polymers, self-assembly systems, biological materials, colloids and emulsions, and real-time in-situ studies.
This application aims to continue Australia's partnership with the world's most intense neutron source, ISIS in the UK, in order to sustain the considerable Australian scientific momentum which now relies on ISIS.
The outcomes will be new science that cannot be generated solely within Australia.
Read moreRead less