A new instrument to observe the three-dimensional structure of wind and temperature disturbances at and above Earth's polar mesopause. Expected benefits include:
? Improved ability to observe, understand, and predict space weather impacts on Australia's
communications, navigation, and surveillance capabilities;
? Support for specific Australian programs such as JORN with improved real-time specifications of
ionospheric conditions in our sector;
? Establishing Australia's leadersh ....A new instrument to observe the three-dimensional structure of wind and temperature disturbances at and above Earth's polar mesopause. Expected benefits include:
? Improved ability to observe, understand, and predict space weather impacts on Australia's
communications, navigation, and surveillance capabilities;
? Support for specific Australian programs such as JORN with improved real-time specifications of
ionospheric conditions in our sector;
? Establishing Australia's leadership of a powerful new technique for atmospheric remote sensing;
? Placing Australia at the center of international collaborative efforts to develop this technique;
? Conducting leading edge research and student training in photonics, which is highly valued by industry;
? Supporting Australia's presence and territorial claims in Antarctica.
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Tropical convection and its contribution to climate variability. This research will provide the necessary data to test and improve the representation of tropical convective clouds in weather forecast and climate simulation models. This will lead to more robust estimates of future climate change, and improved prediction of precipitation in the Australian tropics. This project will also provide training to undergraduate and postgraduate students in using modern computer models; such models will be ....Tropical convection and its contribution to climate variability. This research will provide the necessary data to test and improve the representation of tropical convective clouds in weather forecast and climate simulation models. This will lead to more robust estimates of future climate change, and improved prediction of precipitation in the Australian tropics. This project will also provide training to undergraduate and postgraduate students in using modern computer models; such models will be a key component of weather forecasting in the future.Read moreRead less
Precipitation Events over Tasmania and their Response to Weather Modification. The ongoing cloud-seeding work undertaken by Hydro Tasmania will be investigated through a combination of fieldwork and numerical simulations. New instrumentation and advanced numerical models will allow this research to provide a new understanding of the precipitation events over Tasmania and their response to cloud seeding. This research will also explore the interaction between the background aerosol/pollution leve ....Precipitation Events over Tasmania and their Response to Weather Modification. The ongoing cloud-seeding work undertaken by Hydro Tasmania will be investigated through a combination of fieldwork and numerical simulations. New instrumentation and advanced numerical models will allow this research to provide a new understanding of the precipitation events over Tasmania and their response to cloud seeding. This research will also explore the interaction between the background aerosol/pollution level and the precipitation. Given the relatively pure nature of the air over Tasmania, this research will be of international interest. This research will also be of direct interest to Hydro Tasmania as insight gained into the precipitation events will allow us to optimise their cloud-seeding operation.Read moreRead less
The dynamics and predictability of fire weather over southern Australia. As illustrated by the recent Victorian bushfires, Australia has one of the most severe fire climates in the world. Fires play a major role in modifying our landscape, affecting native flora and fauna, and damaging infrastructure and property. Effective fire fighting and fire management relies heavily on the prediction of fire weather and the impact of atmospheric conditions on fire behaviour. This project investigates some ....The dynamics and predictability of fire weather over southern Australia. As illustrated by the recent Victorian bushfires, Australia has one of the most severe fire climates in the world. Fires play a major role in modifying our landscape, affecting native flora and fauna, and damaging infrastructure and property. Effective fire fighting and fire management relies heavily on the prediction of fire weather and the impact of atmospheric conditions on fire behaviour. This project investigates some of the key processes that cause local enhancements in fire weather in regions of complex terrain like southern Australia.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560872
Funder
Australian Research Council
Funding Amount
$142,138.00
Summary
The Buckland Park Lidar Facility. This project will develop a laser radar (lidar) facility to operate as a test bed for studies in atmospheric physics, space physics, optics and astronomy.
The dynamics of deep convective clouds and their role in the climate system. Deep convective clouds are the source of some of the largest uncertainties in climate projection models. This research will better characterise turbulence, mixing and momentum transport processes around clouds and develop new methods to include these effects in climate models, leading to more robust estimates of future climate change. An additional benefit of this work is that it will develop new guidelines for cloud-in ....The dynamics of deep convective clouds and their role in the climate system. Deep convective clouds are the source of some of the largest uncertainties in climate projection models. This research will better characterise turbulence, mixing and momentum transport processes around clouds and develop new methods to include these effects in climate models, leading to more robust estimates of future climate change. An additional benefit of this work is that it will develop new guidelines for cloud-induced turbulence avoidance for use by the aviation industry and lead to increased aviation safety.Read moreRead less
Assessing clouds and rainfall in Australia's community climate model - Towards an improved simulation of Australia's water resources. Climate change is likely to significantly affect Australia's water resources. A well-measured response to this challenge requires reliable projections of future climate using modern Earth System Models. By thoroughly evaluating Australia's community climate model this research will inform Australia's adaptation policy and through subsequent model development it wi ....Assessing clouds and rainfall in Australia's community climate model - Towards an improved simulation of Australia's water resources. Climate change is likely to significantly affect Australia's water resources. A well-measured response to this challenge requires reliable projections of future climate using modern Earth System Models. By thoroughly evaluating Australia's community climate model this research will inform Australia's adaptation policy and through subsequent model development it will contribute to significant improvements in our ability to understand and predict climate change. Through better informing water resource management the research constitutes an important contribution to an environmentally sustainable Australia. Read moreRead less
The coldest region on Earth gets even colder. Studying the observable atmospheric indicators of climate change is of national interest and importance. It strengthens the Australia's participation and further recognition in this research area. This project adds to the Australia's contribution to fundamental atmospheric physics and complements work carried out by other Australian researchers. Australian science further benefits from satellite data access and analyses skills. Development of interna ....The coldest region on Earth gets even colder. Studying the observable atmospheric indicators of climate change is of national interest and importance. It strengthens the Australia's participation and further recognition in this research area. This project adds to the Australia's contribution to fundamental atmospheric physics and complements work carried out by other Australian researchers. Australian science further benefits from satellite data access and analyses skills. Development of international collaborations in this research area and involvement in several international satellite projects is important for future national atmospheric and space programs. Postgraduate training in this area provides expertise needed at many Australian organisations. 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