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River sensitivity to change: An assessment of threshold shifts between River Styles in Coastal NSW. Over 70% of coastal catchments in northern NSW comprise confined or partly-confined valleys in which floodplains are absent or discontinuous. Evolutionary controls on floodplain presence and their sensitivity to disturbance since European settlement will be explained. Increased understanding of the character, behaviour and evolution of these river types will provide a generic framework to assess ....River sensitivity to change: An assessment of threshold shifts between River Styles in Coastal NSW. Over 70% of coastal catchments in northern NSW comprise confined or partly-confined valleys in which floodplains are absent or discontinuous. Evolutionary controls on floodplain presence and their sensitivity to disturbance since European settlement will be explained. Increased understanding of the character, behaviour and evolution of these river types will provide a generic framework to assess river sensitivity to change. The understanding achieved via this project will form the basis upon which to manage these rivers in an environmentally sustainable manner.Read moreRead less
Design Rationale for Gated Canal Estates. This project will provide new knowledge on how to design gated canal estates to maximise their water quality and avoid events leading to the development of poor, and even harmful, water quality. It will document this new knowledge as Engineering Design Guidelines, which can be implemented to minimise adverse water quality impacts. A User Manual will also be developed to document the application of water quality decision support systems for use in designi ....Design Rationale for Gated Canal Estates. This project will provide new knowledge on how to design gated canal estates to maximise their water quality and avoid events leading to the development of poor, and even harmful, water quality. It will document this new knowledge as Engineering Design Guidelines, which can be implemented to minimise adverse water quality impacts. A User Manual will also be developed to document the application of water quality decision support systems for use in designing canal estates. This project will foster technology transfer from the research environment to the private and public sectors, also enabling a student to complete a PhD program.Read moreRead less
Modelling of unsteady natural convection in a reservoir sidearm. Horizontal exchange flows induced by daytime heating and night-time cooling through water surface play an important role in the transport of water properties in the shoreline regions of reservoirs. This project is aimed at exploring the driving mechanisms of these flows through a closely linked experimental, numerical and analytical research program. At the completion of this project, significant advance in experimental methodology ....Modelling of unsteady natural convection in a reservoir sidearm. Horizontal exchange flows induced by daytime heating and night-time cooling through water surface play an important role in the transport of water properties in the shoreline regions of reservoirs. This project is aimed at exploring the driving mechanisms of these flows through a closely linked experimental, numerical and analytical research program. At the completion of this project, significant advance in experimental methodology will be achieved, and reliable experimental and theoretical data will be available that can be used to estimate the heat and mass transfer in the coastal regions which is important for water quality management and environmental planning.Read moreRead less
Natural convection induced exchange flows between near shore and central regions of reservoirs. Inland discharges into reservoirs often carry rich nutrients, pollutants and biological species into the coastal regions, which are redistributed across the central regions of reservoirs through dynamical mixing processes. One of the important mixing processes is the horizontal exchange flow between the near shore and central regions induced by diurnal heating and cooling through the water surface, wh ....Natural convection induced exchange flows between near shore and central regions of reservoirs. Inland discharges into reservoirs often carry rich nutrients, pollutants and biological species into the coastal regions, which are redistributed across the central regions of reservoirs through dynamical mixing processes. One of the important mixing processes is the horizontal exchange flow between the near shore and central regions induced by diurnal heating and cooling through the water surface, which is classified as a natural convection process. This process will be investigated in this project through a closely linked analytical, experimental and numerical research program. The output from this research will have direct application in water quality management and environmental planning.Read moreRead less
Transport by Natural Convection in Reservoir Sidearms. This project is a first step in developing models of the distribution of water quality parameters in reservoirs by a range of small scale dynamical processes not included in commercial water quality models. Specifically, the project will investigate the transport of suspended materials from the shore to the deeper parts resulting from the interaction of the meteorological forcing and the topography. This will contribute to the development of ....Transport by Natural Convection in Reservoir Sidearms. This project is a first step in developing models of the distribution of water quality parameters in reservoirs by a range of small scale dynamical processes not included in commercial water quality models. Specifically, the project will investigate the transport of suspended materials from the shore to the deeper parts resulting from the interaction of the meteorological forcing and the topography. This will contribute to the development of improved water quality models, and therefore to better management of water quality of Australia's water resources.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0561233
Funder
Australian Research Council
Funding Amount
$434,000.00
Summary
State-of-the-Art Solid State Nuclear Magnetic Resonance Facility. This proposal seeks funds for the purchase and installation of a state-of-the-art 400 MHz Wide-Bore Solid-State NMR spectrometer. Research projects utilising this euipment will benefit from the ability to probe the structure of solid samples that are difficult to characterise in any other way. These materials represent advances in nanotechnology, new materials and will impact on the analysis of environmental contaminants in pota ....State-of-the-Art Solid State Nuclear Magnetic Resonance Facility. This proposal seeks funds for the purchase and installation of a state-of-the-art 400 MHz Wide-Bore Solid-State NMR spectrometer. Research projects utilising this euipment will benefit from the ability to probe the structure of solid samples that are difficult to characterise in any other way. These materials represent advances in nanotechnology, new materials and will impact on the analysis of environmental contaminants in potable water supplies, with a particular Australian focus on the identification of compounds formed as by-products during disinfection processes.
The upgraded facility will be the only one of its kind in Western Australia.
Read moreRead less
Laboratory and Field Testing of a Leak Detection Technique Using Fluid Transients. A major problem in fluid pipelines and pipe networks is undetected leakage. This research collaboration will develop new approaches that will enable systematic leak detection using advanced numerical modelling and inverse techniques with the ultimate goal of implementing these leak detection methods in practice. In addition to the numerical model development, an extensive series of laboratory experiments will be u ....Laboratory and Field Testing of a Leak Detection Technique Using Fluid Transients. A major problem in fluid pipelines and pipe networks is undetected leakage. This research collaboration will develop new approaches that will enable systematic leak detection using advanced numerical modelling and inverse techniques with the ultimate goal of implementing these leak detection methods in practice. In addition to the numerical model development, an extensive series of laboratory experiments will be undertaken by researchers from both universities using the laboratory facilities in Adelaide to verify and extend the new approaches. The researchers will conduct similar experiments under field conditions on much larger pipe systems in Toronto and generally in Canada.Read moreRead less
Frequency Domain Micro-Reflection Processing for Pipe Condition Assessment. Over the coming years many millions of dollars will be spent on upgrading deteriorated pipeline infrastructure that is part of water distribution systems all over Australia. Determining the condition of buried pipes is very difficult and expensive. This research will solve that problem. We will develop powerful numerical methods for non-invasive pipe condition assessment. Small controlled transients will be input by a ....Frequency Domain Micro-Reflection Processing for Pipe Condition Assessment. Over the coming years many millions of dollars will be spent on upgrading deteriorated pipeline infrastructure that is part of water distribution systems all over Australia. Determining the condition of buried pipes is very difficult and expensive. This research will solve that problem. We will develop powerful numerical methods for non-invasive pipe condition assessment. Small controlled transients will be input by a specially designed signal generation device that can determine the condition of the inside of the pipe. These new techniques will be cost-effective, accurate and able to cover very long distances of pipe. Water authorities will then be able to quickly decide which sections of pipe require further investigation.Read moreRead less
Micro-reflections for pipe condition assessment in water networks. Maintaining highly reliable water supply pipeline infrastructure for cities, towns and in rural Australia is extremely important. Our research will develop new non-invasive condition assessment techniques. Transient events will be used to create pressure waves that travel up and down a pipe. Sophisticated analysis of the micro-reflections in the measured pressure traces will be the heart of the new techniques. Water utility manag ....Micro-reflections for pipe condition assessment in water networks. Maintaining highly reliable water supply pipeline infrastructure for cities, towns and in rural Australia is extremely important. Our research will develop new non-invasive condition assessment techniques. Transient events will be used to create pressure waves that travel up and down a pipe. Sophisticated analysis of the micro-reflections in the measured pressure traces will be the heart of the new techniques. Water utility managers will be able to make a detailed assessment of the interior pipe wall to determine if significant corrosion or deterioration of the cement mortar lining has occurred. Rehabilitation strategies can then be determined. These new techniques will replace camera inspections that are extremely invasive and expensive.Read moreRead less
A new approach to systematic blockage detection and mapping in water distribution systems. Techniques to non-destructively probe and map features are common in medicine (MRI, Ultrasound, X-rays) and in other areas such as geophysics. No analogous techniques exist for water distribution systems that are an integral part of society's infrastructure. The location and mapping of blockages using pressure pulses is the focus of this research and our industry partner wants to be the first to develop ....A new approach to systematic blockage detection and mapping in water distribution systems. Techniques to non-destructively probe and map features are common in medicine (MRI, Ultrasound, X-rays) and in other areas such as geophysics. No analogous techniques exist for water distribution systems that are an integral part of society's infrastructure. The location and mapping of blockages using pressure pulses is the focus of this research and our industry partner wants to be the first to develop this technology. Experimental verification of the technique will be carried out in laboratory and field tests. The new methodology will have a significant economic impact with major savings of operation and maintenance costs for water networks worldwide.Read moreRead less