Energy Dissipation and Nanoscale Processes at Moving Contact Lines. The dynamic process of liquids wetting and dewetting, as moving contact lines pass over solid surfaces is central to many industrial operations and natural phenomena. Contact line motion plays a key role in micro and nanofluidics, the foundation of an emergent technology called process intensification, where large industrial processes can be reduced to Lilliputian in size. Substantial energy reduction and other benefits are exp ....Energy Dissipation and Nanoscale Processes at Moving Contact Lines. The dynamic process of liquids wetting and dewetting, as moving contact lines pass over solid surfaces is central to many industrial operations and natural phenomena. Contact line motion plays a key role in micro and nanofluidics, the foundation of an emergent technology called process intensification, where large industrial processes can be reduced to Lilliputian in size. Substantial energy reduction and other benefits are expected from this project, including the transformation of coarse particle flotation. Young PhD scientists and engineers will be educated in a rich research environment, with strong international research collaboration in areas of national priority.Read moreRead less
AN INTEGRATED STUDY OF ATMOSPHERIC WAVE GENERATION AND COUPLING. Small-scale atmospheric gravity waves play an important, but not well understood, role in determining the state of the atmosphere. Observations to be made in northern Australia in 2005-2006 will bring together different kinds of radars and other instruments to study rain production processes in thunderstorms. Results will be used in a high-resolution numerical model to test wave generation by storms and to study their impact on the ....AN INTEGRATED STUDY OF ATMOSPHERIC WAVE GENERATION AND COUPLING. Small-scale atmospheric gravity waves play an important, but not well understood, role in determining the state of the atmosphere. Observations to be made in northern Australia in 2005-2006 will bring together different kinds of radars and other instruments to study rain production processes in thunderstorms. Results will be used in a high-resolution numerical model to test wave generation by storms and to study their impact on the atmosphere. The project will contribute to the improvement of weather radar measurements of rainfall and to improvement in numerical weather forecasting and climate prediction. It will provide high-quality training for postgraduate students in the use of state-of-the-art instrumentation and models.Read moreRead less
WAVES IN THE MIDDLE ATMOSPHERE. Atmospheric waves have a profound influence in the atmosphere. A unique network of radars in the southern hemisphere will be used to study wave processes in the upper atmosphere. The project will investigate causes of wave variability, wave sources and wave-wave interactions and will involve satellite measurements and international collaboration. Results will guide the development and testing of schemes that incorporate the effects of small-scale waves in numerica ....WAVES IN THE MIDDLE ATMOSPHERE. Atmospheric waves have a profound influence in the atmosphere. A unique network of radars in the southern hemisphere will be used to study wave processes in the upper atmosphere. The project will investigate causes of wave variability, wave sources and wave-wave interactions and will involve satellite measurements and international collaboration. Results will guide the development and testing of schemes that incorporate the effects of small-scale waves in numerical weather and climate models. Outcomes from the project will have application in modelling climate change.Read moreRead less
The Response of the Middle Atmosphere to Solar and Dynamical Forcing. The region of the atmosphere and ionosphere between 50 and 100 km is difficult to measure directly. We will use a unique array of instruments deployed across Australia to study how this region responds to waves generated in the lower atmosphere and to changes in electromagnetic energy from the sun and particle precipitation from the magnetosphere. Outcomes will help our understanding of how the region is responding to rising l ....The Response of the Middle Atmosphere to Solar and Dynamical Forcing. The region of the atmosphere and ionosphere between 50 and 100 km is difficult to measure directly. We will use a unique array of instruments deployed across Australia to study how this region responds to waves generated in the lower atmosphere and to changes in electromagnetic energy from the sun and particle precipitation from the magnetosphere. Outcomes will help our understanding of how the region is responding to rising levels of greenhouse gas concentrations. Cooling effects are already apparent and our research will look for additional evidence of change.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989069
Funder
Australian Research Council
Funding Amount
$450,000.00
Summary
A New Digital Radar for Studies in Solar-Terrestrial and Atmospheric Physics. Australia is a world leader in the development of High Frequency (HF) radar surveillance systems, such as JORN (Jindalee over-the-horizon radar). However, Australia's ability to support these operations and remain a leader in these fields depends on its capacity to nurture expertise and train new personnel in these areas. The new HF radar system will play a crucial role in this respect, providing (i) high-level trainin ....A New Digital Radar for Studies in Solar-Terrestrial and Atmospheric Physics. Australia is a world leader in the development of High Frequency (HF) radar surveillance systems, such as JORN (Jindalee over-the-horizon radar). However, Australia's ability to support these operations and remain a leader in these fields depends on its capacity to nurture expertise and train new personnel in these areas. The new HF radar system will play a crucial role in this respect, providing (i) high-level training in radar technology and associated science, (ii) a test bed for the development of new instrumental and data analysis techniques, (c) new information on the source of ionospheric perturbations that can affect the performance of JORN, and (d) data important for Australia's space weather prediction community, via IPS (Ionospheric Prediction Service) Radio and Space Services.Read moreRead less
Australian Mineral Science Research Institute: Transformation of resource-based industries through the generation and application of new technologies. The research conducted within AMSRI will enable our existing resource-based industries to be transformed through the application of new technologies, helping to create an environmentally sustainable nation, a key national research priority. The research programs in energy efficient liberation, frugal water use and waste management, innovative proc ....Australian Mineral Science Research Institute: Transformation of resource-based industries through the generation and application of new technologies. The research conducted within AMSRI will enable our existing resource-based industries to be transformed through the application of new technologies, helping to create an environmentally sustainable nation, a key national research priority. The research programs in energy efficient liberation, frugal water use and waste management, innovative processing, material and interface science, advanced analysis and mathematics in minerals processing are of critical importance to Australia's major export industry. AMSRI will produce unique graduate students, educated in a multi-university, industry-linked research environment, who will provide a strong intellectual resource to both Australian industry and research institutions.Read moreRead less