Linkage Infrastructure, Equipment And Facilities - Grant ID: LE170100203
Funder
Australian Research Council
Funding Amount
$326,000.00
Summary
Flow measurement for large-scale industrial aerodynamics. This project aims to research the unsteady aerodynamic wakes of cars, trucks, athletes, turbines and micro-air vehicles. Researchers will use the flow measurement system for large-scale industrial aerodynamics to resolve high speed and large scale industrial flows. The system’s primary objective will be the characterisation of complex, three-dimensional turbulent flows. It is anticipated that the research will lead to reduced aerodynamic ....Flow measurement for large-scale industrial aerodynamics. This project aims to research the unsteady aerodynamic wakes of cars, trucks, athletes, turbines and micro-air vehicles. Researchers will use the flow measurement system for large-scale industrial aerodynamics to resolve high speed and large scale industrial flows. The system’s primary objective will be the characterisation of complex, three-dimensional turbulent flows. It is anticipated that the research will lead to reduced aerodynamic drag in transport and improve wind power generation, ultimately reducing emissions and improving efficiency and national competitiveness in sport. The advanced system will strengthen Australia’s position as an advanced engineering design hub.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE130100051
Funder
Australian Research Council
Funding Amount
$200,000.00
Summary
Fabrication and characterisation facilities for lithium rechargeable batteries and supercapacitors. The facility, unlike any currently existing in Australia, will help researchers studying electrodes and cells at a high level. It will provide a new path to high-level research performance and will significantly enhance Australia’s research capability to bring new materials/technologies under development closer to application.
Special Research Initiatives - Grant ID: SR0354872
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
The ARC Cleaner Energy and Hydrogen Research Network. The importance of clean energy is well recognised, and it is important to recognise, leverage and exploit Australian needs in the context of world progress in the area. The first task of the initiative will be to identify and focus research in the knowledge of existing trends. The Network will bring together Australia's finest research groups to provide an Australian focus on cleaner energy and hydrogen research, participate in major internat ....The ARC Cleaner Energy and Hydrogen Research Network. The importance of clean energy is well recognised, and it is important to recognise, leverage and exploit Australian needs in the context of world progress in the area. The first task of the initiative will be to identify and focus research in the knowledge of existing trends. The Network will bring together Australia's finest research groups to provide an Australian focus on cleaner energy and hydrogen research, participate in major international programs, and provide a framework for relevant researchers to interact. It will develop an advisory role for Government and industry on technological options for sustainable energy development.Read moreRead less
Smart materials for atmospheric water management and water harvesting. Fresh water is a scarce resource in many parts of the globe but uncomfortably over-supplied in other regions. Dehumidifying machines, such as air conditioners, are extensively used in humid climates to enhance human comfort, but with great energy costs. Likewise, the production of potable water in remote dry regions is energy intensive. We propose novel hyper-absorbent desiccating polymers combined into sorption-powered engin ....Smart materials for atmospheric water management and water harvesting. Fresh water is a scarce resource in many parts of the globe but uncomfortably over-supplied in other regions. Dehumidifying machines, such as air conditioners, are extensively used in humid climates to enhance human comfort, but with great energy costs. Likewise, the production of potable water in remote dry regions is energy intensive. We propose novel hyper-absorbent desiccating polymers combined into sorption-powered engines inspired by nastic movements in plants to develop extremely efficient dehumidifiers and water harvesting machines. These polymer actuators can help address the auto-acceleration of climate change caused by the increasing use of air conditioners and provide cheap, clean water for remote communities.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE150100511
Funder
Australian Research Council
Funding Amount
$354,190.00
Summary
Rethinking collaborative governance for urban sustainability and resilience. There is a pressing need to improve the resource sustainability of cities and their resilience to hazards. Increasingly, governments seek to achieve such improvement by engaging directly with businesses and citizens. Whilst this collaborative city governance holds promise for transforming resource use and the resilience of cities, little is known about its performance benefits and effectiveness. The project aims to addr ....Rethinking collaborative governance for urban sustainability and resilience. There is a pressing need to improve the resource sustainability of cities and their resilience to hazards. Increasingly, governments seek to achieve such improvement by engaging directly with businesses and citizens. Whilst this collaborative city governance holds promise for transforming resource use and the resilience of cities, little is known about its performance benefits and effectiveness. The project aims to address this knowledge gap through a systematic empirical analysis of a series of collaborations in four global cities. The project aims to help refine theories of collaborative governance, and provide policymakers and practitioners with lessons on how to improve sustainability and resilience of cities in Australia and elsewhere.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120102787
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Building a green economy? The politics of green infrastructure stimulus in the wake of the global financial crisis. A considerable amount of government stimulus spending following the Global Financial Crisis was directed to 'green infrastructure'. This project analyses the successes and failures of several countries' green stimulus packages. Results will inform policy on future public investment in infrastructure that will be needed to address climate change.
Industrial Transformation Research Hubs - Grant ID: IH170100009
Funder
Australian Research Council
Funding Amount
$4,000,000.00
Summary
ARC Research Hub for Energy-efficient Separation. The ARC Research Hub for Energy-efficient Separation aims to develop advanced separation materials, innovative products and smart processes to reduce the energy consumption of separation processes. The Research Hub will create a multi-disciplinary training platform, supplying a highly-trained workforce for the advanced manufacturing sector, particularly in separation technology–a growth area in which Australia can lead the world. The advancement ....ARC Research Hub for Energy-efficient Separation. The ARC Research Hub for Energy-efficient Separation aims to develop advanced separation materials, innovative products and smart processes to reduce the energy consumption of separation processes. The Research Hub will create a multi-disciplinary training platform, supplying a highly-trained workforce for the advanced manufacturing sector, particularly in separation technology–a growth area in which Australia can lead the world. The advancement of Australia’s capability as a world-leading technology provider in manufacturing advanced separation materials and equipment will enable Australian industry to become more energy-efficient and cost-competitive in a global economy.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100142
Funder
Australian Research Council
Funding Amount
$727,900.00
Summary
Australian quantum gas microscope. This project aims to create a quantum gas microscope for ultra-cold dysprosium atoms, realising a versatile system for quantum emulation, tests of fundamental, atom interferometry, and precision measurement. Quantum gas microscopy is a frontier area allowing atom-by-atom synthesis and probing of tailored quantum materials such as topological insulators. Using the lanthanide element dysprosium, which is highly magnetic and possesses both bosonic and fermionic is ....Australian quantum gas microscope. This project aims to create a quantum gas microscope for ultra-cold dysprosium atoms, realising a versatile system for quantum emulation, tests of fundamental, atom interferometry, and precision measurement. Quantum gas microscopy is a frontier area allowing atom-by-atom synthesis and probing of tailored quantum materials such as topological insulators. Using the lanthanide element dysprosium, which is highly magnetic and possesses both bosonic and fermionic isotopes, this facility will serve the needs of multiple research groups with diverse scientific interests.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100047
Funder
Australian Research Council
Funding Amount
$420,000.00
Summary
Events through time: eruptions, extinctions, impacts, ore-bodies and orogenies - upgrading the national argon geochronology network. Nine universities and the CSIRO will replace aged and obsolete equipment with new mass spectrometers which will be strategically placed at opposite ends of our continent to improve access for Australian researchers to these instruments for which there is high demand. These instruments will allow more exact dating of events such as eruptions, impacts, climate change ....Events through time: eruptions, extinctions, impacts, ore-bodies and orogenies - upgrading the national argon geochronology network. Nine universities and the CSIRO will replace aged and obsolete equipment with new mass spectrometers which will be strategically placed at opposite ends of our continent to improve access for Australian researchers to these instruments for which there is high demand. These instruments will allow more exact dating of events such as eruptions, impacts, climate change, biological extinctions, mineral deposits and mountain building.Read moreRead less
New approach to control grain boundary behaviour in superconducting thin films. This project aims at finding a new approach to overcome the cornerstone problem of high temperature superconducting films through new design, magnetic interactions, and real-time magnetic flux visualisation at the quantum level. The expected ultimate achievement would be to develop new technologies, delivering the best performance of the films.