Predicting pollutant dispersion within the CBD. The accidental or pre-meditated release of hazardous gases and aerosols within an urban environment are potentially threatening to human life and safety. Emergency responders require adequate information to quickly address these concerns yet the lack of detailed observations and the complex nature of the dispersion make this task difficult. This project will collect detailed observations of tracer dispersion within the Perth central business distri ....Predicting pollutant dispersion within the CBD. The accidental or pre-meditated release of hazardous gases and aerosols within an urban environment are potentially threatening to human life and safety. Emergency responders require adequate information to quickly address these concerns yet the lack of detailed observations and the complex nature of the dispersion make this task difficult. This project will collect detailed observations of tracer dispersion within the Perth central business district and combine these observations with multiscale modelling to redefine appropriate emergency response models as well as their limits. Such analysis will enhance mitigation strategies.Read moreRead less
Quantification of Traffic Generated Nano and Ultrafine Particle Dynamics and Toxicity in Transit Hubs and Transport Corridors. The socio-economic benefits to Australia will include (i) new knowledge for the multiparameter assessment of nano and ultrafine particles, pollutants in the centre of current scientific, medical and policy debates (ii) a breakthrough in the scientific understanding of traffic generated particles in the urban atmosphere (iii) determining the toxicological impact of these ....Quantification of Traffic Generated Nano and Ultrafine Particle Dynamics and Toxicity in Transit Hubs and Transport Corridors. The socio-economic benefits to Australia will include (i) new knowledge for the multiparameter assessment of nano and ultrafine particles, pollutants in the centre of current scientific, medical and policy debates (ii) a breakthrough in the scientific understanding of traffic generated particles in the urban atmosphere (iii) determining the toxicological impact of these particles on biological systems. The ultimate economic benefit will be improved urban design to lower human exposure to ultrafine particles, thus reducing health care cost and productivity losses. The research will also place Australia at the forefront of international progress towards better methods for achieving environmental sustainability.Read moreRead less
The Australian Dust Transport System: characterisation and downwind impacts. Most Australians are aware that dust storms occur in dry inland areas and recently many experienced first hand, the dust storms that engulfed our cities. Few, however, are aware of the diverse impacts of desert dust downwind from source. Recent technological advances in remote sensing have made dust storms much easier to study, and Australian researchers will use these, and other innovative techniques, to reconstruct th ....The Australian Dust Transport System: characterisation and downwind impacts. Most Australians are aware that dust storms occur in dry inland areas and recently many experienced first hand, the dust storms that engulfed our cities. Few, however, are aware of the diverse impacts of desert dust downwind from source. Recent technological advances in remote sensing have made dust storms much easier to study, and Australian researchers will use these, and other innovative techniques, to reconstruct the major dust storms back to 1960. They will reconstruct the sources, dust loads and trajectories of these storms, and examine how dust affects urban air pollution. Their data will also be provided to an allied research team in New Zealand, who are examining how iron-rich Australia dust affects phytoplankton in the oceans.Read moreRead less
The best astronomical site on earth? A modern optical/infrared telescope is only as good as its site. We have previously shown that the infrared skies above the South Pole are up to 100 times darker than skies elsewhere, leading to enormous potential gains in sensitivity. We now seek to extend these measurements to Antarctic sites that are even higher, drier and colder than the South Pole. These are expected to be the best observing sites on Earth, paving the way for the deployment of telescop ....The best astronomical site on earth? A modern optical/infrared telescope is only as good as its site. We have previously shown that the infrared skies above the South Pole are up to 100 times darker than skies elsewhere, leading to enormous potential gains in sensitivity. We now seek to extend these measurements to Antarctic sites that are even higher, drier and colder than the South Pole. These are expected to be the best observing sites on Earth, paving the way for the deployment of telescopes of unprecedented sensitivity able to explore the origins of planets, stars and galaxies.
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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
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
Development and validation of a model predicting charged aerosol characteristics in the proximity to high voltage powerlines. With over 780,000 km length of High Voltage Power Lines running through different parts of the country, the scientific and socio-economic benefits to Australia and worldwide include: (i) The developed novel semi-empirical model would become an important tool for research on human exposure and health effects in the vicinity of powerlines and vehicle transport routs, and fo ....Development and validation of a model predicting charged aerosol characteristics in the proximity to high voltage powerlines. With over 780,000 km length of High Voltage Power Lines running through different parts of the country, the scientific and socio-economic benefits to Australia and worldwide include: (i) The developed novel semi-empirical model would become an important tool for research on human exposure and health effects in the vicinity of powerlines and vehicle transport routs, and for developing future directions for management and control strategies for transport and land development plans; (ii) The ultimate benefit of this research will be reduction of risks and thus increase in health and well-being of Australians and reduction in health care costs. Read moreRead less
Developing and validating an air quality assessment model for application in human exposure assessment, housing/urban planning and policy setting. At present there does not exist a model for assessing human exposure to airborne pollutants in places where people live, work and rest. In addition, experimental exposure assessments display large discrepancies dependent on the measurement method used. This research aims at developing and validating an air quality assessment model that would enable ....Developing and validating an air quality assessment model for application in human exposure assessment, housing/urban planning and policy setting. At present there does not exist a model for assessing human exposure to airborne pollutants in places where people live, work and rest. In addition, experimental exposure assessments display large discrepancies dependent on the measurement method used. This research aims at developing and validating an air quality assessment model that would enable predictions of air quality in various mircoenvironments for the purpose of exposure and risk assessment, housing and urban planning, and policy setting. This research will provide scientific foundation and a tool for developing future directions for management and control to protect the community and the environment.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453434
Funder
Australian Research Council
Funding Amount
$395,077.00
Summary
A new airborne facility for environmental, hydrological, atmospheric and oceanic research: high resolution measurement of soil moisture, temperature and salinity. This proposal seeks to establish a new national capability for airborne remote sensing of key environmental variables. It will enable high-resolution mapping of near-surface soil moisture, land surface salinity and temperature, and ocean surface salinity and temperature. It will be a new tool for hydrologic, atmospheric and oceanic r ....A new airborne facility for environmental, hydrological, atmospheric and oceanic research: high resolution measurement of soil moisture, temperature and salinity. This proposal seeks to establish a new national capability for airborne remote sensing of key environmental variables. It will enable high-resolution mapping of near-surface soil moisture, land surface salinity and temperature, and ocean surface salinity and temperature. It will be a new tool for hydrologic, atmospheric and oceanic researchers, providing unprecedented detail on characteristics critical to our understanding and management of the environment. The small instrument size and weight will enable use of a light aircraft as the observing platform, providing the national (and international) research community with an affordable tool, hitherto unavailable.Read moreRead less