Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100181
Funder
Australian Research Council
Funding Amount
$650,000.00
Summary
Strengthening merit-based access and support at the new National Computing Infrastructure petascale supercomputing facility. World-leading high-performance computing is fundamental to Australia's international research success. This facility will provide access to the new National Computational Infrastructure facility by world-leading researchers from six research universities, and sustain ground-breaking work in an increasingly competitive environment.
Modulation of air-conditioning settings to destroy respiratory viruses. This project aims to prove that manipulating the ambient humidity can rapidly degrade airborne viruses. The relationship between ambient humidity and airborne infection is poorly understood for viral pathogens including influenza and the common cold. The project will prove that indoor environmental conditions can be easily manipulated to kill airborne viruses. The findings will be used to develop indoor air humidity control ....Modulation of air-conditioning settings to destroy respiratory viruses. This project aims to prove that manipulating the ambient humidity can rapidly degrade airborne viruses. The relationship between ambient humidity and airborne infection is poorly understood for viral pathogens including influenza and the common cold. The project will prove that indoor environmental conditions can be easily manipulated to kill airborne viruses. The findings will be used to develop indoor air humidity control guidelines targeting the vulnerabilities of the viruses to minimise airborne infection.Read moreRead less
Aerosol glassy states promote global warming, airborne toxins and pathogens. This project will improve our understanding of the role played by airborne particles in global climate, pollution and the transmission of influenza, corona virus and the common cold. It will do so by revealing the wider importance of "glassy states" of matter recently revealed in atmospheric aerosols. Glassy states are highly unpredictable quasi solids that abruptly form, interrupting the transition of a liquid to a sol ....Aerosol glassy states promote global warming, airborne toxins and pathogens. This project will improve our understanding of the role played by airborne particles in global climate, pollution and the transmission of influenza, corona virus and the common cold. It will do so by revealing the wider importance of "glassy states" of matter recently revealed in atmospheric aerosols. Glassy states are highly unpredictable quasi solids that abruptly form, interrupting the transition of a liquid to a solid. This interruption invalidates equilibrium assumptions of models of droplets as cloud nuclei and infection vectors. We will develop and validate a numerical tool for predicting glassy state formation and its impact in broad classes of aerosol that include particles critical to cloud formation and infection transmission.Read moreRead less
Airborne ultrafine particles in Australian cities. There is an acute deficiency of knowledge in Australia on urban airborne ultrafine particles, originating from transport and other anthropogenic sources, which pose significant health and environmental risks. The aim of this project is to address this deficiency by an extensive multi-city, cross-disciplinary study using state of the art instrumentation and data analytic techniques. The outcome will be an in depth, quantitative insight into the c ....Airborne ultrafine particles in Australian cities. There is an acute deficiency of knowledge in Australia on urban airborne ultrafine particles, originating from transport and other anthropogenic sources, which pose significant health and environmental risks. The aim of this project is to address this deficiency by an extensive multi-city, cross-disciplinary study using state of the art instrumentation and data analytic techniques. The outcome will be an in depth, quantitative insight into the characteristics of the particles, their sources and spatial and temporal variation across different urban areas and time scales. Further, the impacts of changing fuels, vehicle technologies, and climate on future trends of the particles will be elucidated.Read moreRead less
Nanoparticle from urban transport: Quantification of formation and dynamics for application for health and environmental risk reduction. Socio-economic benefits of the project outcomes to Australia: (i) advancing the fundamental understanding of the processes contributing to the adverse environmental impacts of nanoparticles; (ii) provision of vital information on the reduction of the environmental and health risks of nanoparticles, thus contributing to the goal of 'cleaner, safer combustion'; ( ....Nanoparticle from urban transport: Quantification of formation and dynamics for application for health and environmental risk reduction. Socio-economic benefits of the project outcomes to Australia: (i) advancing the fundamental understanding of the processes contributing to the adverse environmental impacts of nanoparticles; (ii) provision of vital information on the reduction of the environmental and health risks of nanoparticles, thus contributing to the goal of 'cleaner, safer combustion'; (iii) placing Australian researchers in the frontline of nanoparticle science and technology and international progress towards sustainable development; and (iv) lowering of human exposure to nanoparticles in the cities of tomorrow, thus reducing health care costs and lost productivity. Read moreRead less
Optimisation of indoor air quality, thermal comfort and energy usage within buildings located in busy transit oriented urban developments. The socio-economic benefits to Australia from the project include (i) a novel holistic modelling tool to building design that maximises indoor comfort and provides acceptable air quality for the inhabitants whilst minimising energy usage in transit oriented urban developments; and (ii) estimation of energy consumption for different building designs and operat ....Optimisation of indoor air quality, thermal comfort and energy usage within buildings located in busy transit oriented urban developments. The socio-economic benefits to Australia from the project include (i) a novel holistic modelling tool to building design that maximises indoor comfort and provides acceptable air quality for the inhabitants whilst minimising energy usage in transit oriented urban developments; and (ii) estimation of energy consumption for different building designs and operation with respect to air quality and thermal comfort. The ultimate economic benefit of this research will be a reduction in health care costs and lost productivity as well as reduction of energy used and associated emissions. The research will also place Australia in the forefront of international progress and the race towards better methods for achieving environmental sustainability.Read moreRead less
QUANTIFICATION OF INTERACTIONS DURING THE DISPERSION OF CORONA IONS AND AIRBORNE PARTICLES NEAR POWER LINES. Currently there is no method for quantification of concentration and dispersion of charged aerosols near high voltage power lines (HVPLs). However, hypothesis have been presented, but not yet proven scientifically, that residents of houses close to combustion sources such as highways or industrial plants and HVPLs may be subjected to health risk due to inhalation of charged aerosols. The ....QUANTIFICATION OF INTERACTIONS DURING THE DISPERSION OF CORONA IONS AND AIRBORNE PARTICLES NEAR POWER LINES. Currently there is no method for quantification of concentration and dispersion of charged aerosols near high voltage power lines (HVPLs). However, hypothesis have been presented, but not yet proven scientifically, that residents of houses close to combustion sources such as highways or industrial plants and HVPLs may be subjected to health risk due to inhalation of charged aerosols. The outcome of this project will be a model for quantitative assessment of the processes occurring during the transport and dispersion of corona ions and combustion aerosol, which will be a tool for predictive risk assessment and informed management of public resources in relation to power line design and maintenance.Read moreRead less
The Effects of Nano and Ultrafine Particles from Traffic Emissions on Children's Health. The socio-economic benefits to Australia will include (i) quantitative knowledge of the exposure to nano and ultrafine particles, pollutants in the centre of current scientific, medical and policy debates and (ii) a breakthrough in the scientific understanding of the specific particle properties, which have impacts on health effects. The ultimate economic benefit will be improved urban design to lower, in pa ....The Effects of Nano and Ultrafine Particles from Traffic Emissions on Children's Health. The socio-economic benefits to Australia will include (i) quantitative knowledge of the exposure to nano and ultrafine particles, pollutants in the centre of current scientific, medical and policy debates and (ii) a breakthrough in the scientific understanding of the specific particle properties, which have impacts on health effects. The ultimate economic benefit will be improved urban design to lower, in particular, children's exposure to ultrafine particles, thus reducing life long impacts, health care cost and productivity losses. The research will also place Australia at the forefront of international progress towards better methods for achieving environmental and public health sustainability.Read moreRead less
Climate and health benefits of restoring tropical peat swamp forests. This project aims to investigate the climate and health benefits of restoring the tropical peat swamp forests. The project will integrate novel, field-based paleo-reconstruction of the historical conditions, satellite observations of temperature and rainfall, and high-resolution modelling of the regional climate processes under different restoration scenarios. It will use this information to determine how restoration activitie ....Climate and health benefits of restoring tropical peat swamp forests. This project aims to investigate the climate and health benefits of restoring the tropical peat swamp forests. The project will integrate novel, field-based paleo-reconstruction of the historical conditions, satellite observations of temperature and rainfall, and high-resolution modelling of the regional climate processes under different restoration scenarios. It will use this information to determine how restoration activities affect the regional climate, how changes in climate affect peatland fires and regional smoke haze, and how changes to regional climate and smoke haze affect human respiratory health and heat stress.Read moreRead less
The ARC Earth System Science Research Network. The ARC Earth System Science Network incorporates data collectors, modellers and impacts researchers to address the impacts of climate change and variability on Human, biological and physical systems. Our capacity to adapt to changes in water availability, agricultural productivity, the likelihood of species extinctions, and risks to human health will be enhanced through the Network's use of frontier technologies. The enhanced capacity to use data a ....The ARC Earth System Science Research Network. The ARC Earth System Science Network incorporates data collectors, modellers and impacts researchers to address the impacts of climate change and variability on Human, biological and physical systems. Our capacity to adapt to changes in water availability, agricultural productivity, the likelihood of species extinctions, and risks to human health will be enhanced through the Network's use of frontier technologies. The enhanced capacity to use data and model the Earth System will allow policymakers to make more informed decisions with regard to water, biodiversity, human health, industry and agriculture sustainability; thereby enhancing the national capacity to respond to climate change and variability and securing our common interest.Read moreRead less