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Discovery Early Career Researcher Award - Grant ID: DE160100968
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Lifting the Veil on Turbulent Convective Heat Transfer over Rough Surfaces. By understanding the influence of surface roughness on convective heat transfer, this project intends to reduce the unwanted heating and energy losses associated with surface roughness in gas and steam turbines used in power generation and transportation. The surface roughness that results from extended operation of gas and steam turbines can significantly increase the heating of their surfaces, increasing fuel consumpti ....Lifting the Veil on Turbulent Convective Heat Transfer over Rough Surfaces. By understanding the influence of surface roughness on convective heat transfer, this project intends to reduce the unwanted heating and energy losses associated with surface roughness in gas and steam turbines used in power generation and transportation. The surface roughness that results from extended operation of gas and steam turbines can significantly increase the heating of their surfaces, increasing fuel consumption and greenhouse gas emissions, and reducing operational life. Improvements would allow turbines to operate at higher inlet temperatures which will increase their efficiency and reduce fuel use, environmental emissions and maintenance costs.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE180100416
Funder
Australian Research Council
Funding Amount
$365,446.00
Summary
A predictive tool for low-emission gas turbine combustors. This project aims to develop a powerful tool for prediction of combustion noise using high-fidelity simulations. Combustion-generated sound is a major inhibitor to the development of low-emission, highly-efficient gas turbines as it can initiate "thermoacoustic instability", leading to engine failure in extreme cases. This project will lead to the advancement of fast start-up, low-emission, gas turbines which can complement renewable en ....A predictive tool for low-emission gas turbine combustors. This project aims to develop a powerful tool for prediction of combustion noise using high-fidelity simulations. Combustion-generated sound is a major inhibitor to the development of low-emission, highly-efficient gas turbines as it can initiate "thermoacoustic instability", leading to engine failure in extreme cases. This project will lead to the advancement of fast start-up, low-emission, gas turbines which can complement renewable energy technologies to provide reliable electricity to Australians.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE170100824
Funder
Australian Research Council
Funding Amount
$372,000.00
Summary
Pre-natal communication in adaptation to hot climate. This project aims to reveal how birds programme their offspring for a warming world, by communicating acoustically with their embryos. Most animals, including humans, can hear external sounds before birth, but it is not known what function this plays. An Australian bird calls to its eggs at high ambient temperatures, which alters nestling growth and survival. This project will show the physiological effects involved and the consequences for a ....Pre-natal communication in adaptation to hot climate. This project aims to reveal how birds programme their offspring for a warming world, by communicating acoustically with their embryos. Most animals, including humans, can hear external sounds before birth, but it is not known what function this plays. An Australian bird calls to its eggs at high ambient temperatures, which alters nestling growth and survival. This project will show the physiological effects involved and the consequences for adaptation to heat in wild birds. This project will elucidate whether the global reduction in animal body size is an adaptive response to rising temperatures, and research the therapeutic benefits of pre-natal sounds.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE150100161
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Reducing drag by controlling wall turbulence. Wall turbulence is a critically important phenomenon for any system where fluid flows past an object. Wall turbulence is responsible for 90 per cent of the drag experienced by a large crude tanker, to give just one example. This project aims to investigate novel ways to control wall turbulence by exploiting the presence of recently-discovered large-scale structures. This will lead to significant reductions in the drag and fuel burnt by transport vehi ....Reducing drag by controlling wall turbulence. Wall turbulence is a critically important phenomenon for any system where fluid flows past an object. Wall turbulence is responsible for 90 per cent of the drag experienced by a large crude tanker, to give just one example. This project aims to investigate novel ways to control wall turbulence by exploiting the presence of recently-discovered large-scale structures. This will lead to significant reductions in the drag and fuel burnt by transport vehicles.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240100317
Funder
Australian Research Council
Funding Amount
$459,562.00
Summary
Single-cell metabolite imaging of the coral-microalgal symbiosis. Corals sustain some of the most diverse ecosystems on Earth but are at risk due to warming and acidifying oceans. Coral survival critically depends on the photosynthetic microalgae that live inside the coral and provide the coral with nutrients. Many aspects of this coral-algal relationship remain poorly defined. This project aims to unravel coral-algal interactions with single-cell imaging. Insights from extreme environment coral ....Single-cell metabolite imaging of the coral-microalgal symbiosis. Corals sustain some of the most diverse ecosystems on Earth but are at risk due to warming and acidifying oceans. Coral survival critically depends on the photosynthetic microalgae that live inside the coral and provide the coral with nutrients. Many aspects of this coral-algal relationship remain poorly defined. This project aims to unravel coral-algal interactions with single-cell imaging. Insights from extreme environment corals will reveal how these microalgae may facilitate coral survival under future climate change, providing vital information for reef managers and restoration practitioners. By establishing a novel method, databases and networks, this project will create a powerful forward momentum for coral-algal research.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE170100104
Funder
Australian Research Council
Funding Amount
$353,124.00
Summary
Transcending religion: Pre-Islamic heritage and cultural stability in Iran. This project aims to examine pre-Islamic heritage as a potential contributor to a more stable Middle East by studying its role in an emergent Iranian zone of cultural influence in the Middle East. Understanding contributing factors to stability in the Middle East is crucial to managing Australia’s cultural, economic, and security concerns. The project will develop a situated, multi-scalar method of analysis to establish ....Transcending religion: Pre-Islamic heritage and cultural stability in Iran. This project aims to examine pre-Islamic heritage as a potential contributor to a more stable Middle East by studying its role in an emergent Iranian zone of cultural influence in the Middle East. Understanding contributing factors to stability in the Middle East is crucial to managing Australia’s cultural, economic, and security concerns. The project will develop a situated, multi-scalar method of analysis to establish the function of pre-Islamic heritage using the Parsa-Pasargadae region as an illustrative example. The project expects to deliver insights into the culture and collective identity formation within Muslim societies, and provide a platform for comparative research in the Middle East.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE190100100
Funder
Australian Research Council
Funding Amount
$400,000.00
Summary
Liquid metal chemistry towards grain boundary-free electronic materials. This project aims to develop ultra-thin materials with minimal grain boundaries for electronic applications by advancing knowledge of liquid metal chemistry. The difficulty of synthesising high quality, low-dimensional materials, particularly atomically-thin films, is the major impediment prohibiting the wide scale use of semiconducting nanosheets by the electronics industries. Improving crystal quality, while also offering ....Liquid metal chemistry towards grain boundary-free electronic materials. This project aims to develop ultra-thin materials with minimal grain boundaries for electronic applications by advancing knowledge of liquid metal chemistry. The difficulty of synthesising high quality, low-dimensional materials, particularly atomically-thin films, is the major impediment prohibiting the wide scale use of semiconducting nanosheets by the electronics industries. Improving crystal quality, while also offering scalability, is a key challenge. This project will develop new synthetic approaches by using room temperature liquid metal based chemistry. The outcomes of this project will lay the foundation of the industrial scale application of these highly functional materials, which will enable cost efficient production of energy efficient electronics.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220100154
Funder
Australian Research Council
Funding Amount
$426,000.00
Summary
Engineering twisted two-dimensional materials for mid-infrared detectors. This project aims to engineer twisted two-dimensional materials and develop efficient room-temperature mid-infrared detectors that sense both the intensity and polarisation of light. This project expects to generate a cost-effective, ultra-compact, and multifunctional mid-infrared optical platform with high energy conversion efficiency towards advanced sensing and imaging systems. The anticipated goal of this project is to ....Engineering twisted two-dimensional materials for mid-infrared detectors. This project aims to engineer twisted two-dimensional materials and develop efficient room-temperature mid-infrared detectors that sense both the intensity and polarisation of light. This project expects to generate a cost-effective, ultra-compact, and multifunctional mid-infrared optical platform with high energy conversion efficiency towards advanced sensing and imaging systems. The anticipated goal of this project is to deliver high value-added devices with reduced energy consumption for the electronics and photonics industries. This should provide significant economic and environmental benefits by realising technological innovations, savings in materials and energy costs, and reduced environmental impact in advanced manufacturing.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE130100090
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Novel anodic coating of magnesium alloy components for corrosion protection. This research aims to protect magnesium alloys from corrosion, paving a path for them to be used as auto and aircraft components. It will establish novel protective anodic coatings upon magnesium and thereby pioneer implementation of magnesium alloys more generally, as galvanising did for steels.
Discovery Early Career Researcher Award - Grant ID: DE200100367
Funder
Australian Research Council
Funding Amount
$389,008.00
Summary
Characterisation of avian circovirus protein complexes. This project aims to better understand how the beak and feather disease virus (BFDV) is assembled. The virus affects Australian native birds, which are currently endangered or critically endangered and has the potential to disrupt native ecosystems. By using interdisciplinary research, this project will generate fundamental knowledge by which BFDV protein complexes are formed. The intended outcomes of the project include the identification ....Characterisation of avian circovirus protein complexes. This project aims to better understand how the beak and feather disease virus (BFDV) is assembled. The virus affects Australian native birds, which are currently endangered or critically endangered and has the potential to disrupt native ecosystems. By using interdisciplinary research, this project will generate fundamental knowledge by which BFDV protein complexes are formed. The intended outcomes of the project include the identification of key binding interfaces involved in viral formation processes. This information intends to guide cost-effective delivery of potential anti-viral options or vaccines for endangered Australian native parrots, and for use as a model to target other pathogenic DNA viruses of interest.Read moreRead less