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Lowering membrane fouling by matching pre-treatment to membrane type. Delivery of potable and recycled water to communities and industry increasingly uses membrane treatment to ensure high standards of water quality, particularly as water scarcity leads to the use of poor quality water sources. Fouling of membranes occurs as water is treated, adding expense and complexity to the process. Reducing fouling will lower the cost of water treatment and improve the economics of treating water in smal ....Lowering membrane fouling by matching pre-treatment to membrane type. Delivery of potable and recycled water to communities and industry increasingly uses membrane treatment to ensure high standards of water quality, particularly as water scarcity leads to the use of poor quality water sources. Fouling of membranes occurs as water is treated, adding expense and complexity to the process. Reducing fouling will lower the cost of water treatment and improve the economics of treating water in smaller systems at source. This will enable greater reliability of localised treatment, which will reduce pumping requirements and decrease both cost and carbon emissions. Read moreRead less
Special Research Initiatives - Grant ID: SR0354511
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
Soil Acidification, the Environment and Production. Soil acidification affects 50% of Australia's agricultural land and is the most important economic constraint to agricultural. In addition, major external offsite impacts include greenhouse gas emissions, reduced stream and ground water health, reduced biodiversity, increased salinity and waterlogging and infrastructure damage. The aim of this network is to quantify the acidification processes and the connection of these processes to the offsit ....Soil Acidification, the Environment and Production. Soil acidification affects 50% of Australia's agricultural land and is the most important economic constraint to agricultural. In addition, major external offsite impacts include greenhouse gas emissions, reduced stream and ground water health, reduced biodiversity, increased salinity and waterlogging and infrastructure damage. The aim of this network is to quantify the acidification processes and the connection of these processes to the offsite impacts. This will lead to development of strategic plans for acidified and potential acid soils and associate offsite impacts, as well as identifying knowledge gaps and building research and policy synergies. Read moreRead less
Fate of endocrine disrupting chemicals in water repellent soil. The fate of endocrine system disrupting chemicals in soils has not been studied, even though some have been linked to human health effects. Many are found in municipal sewage wastes. This project will measure chemical concentrations in water repellent forest plantation soils irrigated with municipal wastewater. The outcome will be data specifically addressing (1) the risks when forest plantations are irrigated with municipal wastewa ....Fate of endocrine disrupting chemicals in water repellent soil. The fate of endocrine system disrupting chemicals in soils has not been studied, even though some have been linked to human health effects. Many are found in municipal sewage wastes. This project will measure chemical concentrations in water repellent forest plantation soils irrigated with municipal wastewater. The outcome will be data specifically addressing (1) the risks when forest plantations are irrigated with municipal wastewater in Victoria and, by extension applicable to other Australian ecosystems, (2) Environment Australia's stated need for information directly applicable to ecosystem and human health risk assessment of the environmental risks posed by endocrine disrupting chemicals.Read moreRead less
Causes of and Cures for Microbiological Foams in Activated Sludge Wastewater Treatment Plants. Little is known of the true diversity of the bacteria causing foaming in activated sludge systems, or why and how they cause these foams. This application seeks funds for an interdisciplinary approach to address these issues, involving input from microbiologists and surface chemists and physicists. Molecular techniques will be used to determine precisely the foaming bacterial communities and their phys ....Causes of and Cures for Microbiological Foams in Activated Sludge Wastewater Treatment Plants. Little is known of the true diversity of the bacteria causing foaming in activated sludge systems, or why and how they cause these foams. This application seeks funds for an interdisciplinary approach to address these issues, involving input from microbiologists and surface chemists and physicists. Molecular techniques will be used to determine precisely the foaming bacterial communities and their physiology, while their surface chemistry and organisation will be studied to understand the mechanisms involved in foaming with the intention of developing control strategies for this global problem suitable for large scale application.Read moreRead less
An autonomous microfluidic analyser for the determination of total phosphorus and nitrogen in aquatic systems. Development of automated monitoring systems capable of extended and remote operation will enable assessment of the effectiveness of water treatment and the impact of nutrient releases on the aquatic environment. Both are important in preserving the quality of existing water resources, and assessing the quality of recycled water, in line with the National Research Priority Environmentall ....An autonomous microfluidic analyser for the determination of total phosphorus and nitrogen in aquatic systems. Development of automated monitoring systems capable of extended and remote operation will enable assessment of the effectiveness of water treatment and the impact of nutrient releases on the aquatic environment. Both are important in preserving the quality of existing water resources, and assessing the quality of recycled water, in line with the National Research Priority Environmentally sustainable Australia, and the Priority Goal, Water - a critical resource. Commercialization of the microfluidic flow analysis system for total N and P will enhance the international competitiveness of Ecotech Pty Ltd and Australia as an exporter of scientific instruments.Read moreRead less
Nutrient Cycling in Lagoon of Islands,Tasmania: management to control eutrophication. Hydro Tasmania manages the Lagoon of Islands, a shallow freshwater lake on Tasmania's central plateau. The lagoon provides irrigation water and supports a significant recreational fishery. Over the last decade the lake has suffered increased nutrient enrichment, despite catchment management works to reduce external nutrient loads.
Preliminary nutrient budgets suggest that a significant proportion of the wat ....Nutrient Cycling in Lagoon of Islands,Tasmania: management to control eutrophication. Hydro Tasmania manages the Lagoon of Islands, a shallow freshwater lake on Tasmania's central plateau. The lagoon provides irrigation water and supports a significant recreational fishery. Over the last decade the lake has suffered increased nutrient enrichment, despite catchment management works to reduce external nutrient loads.
Preliminary nutrient budgets suggest that a significant proportion of the water column nutrient load comes from the sediments, phytoplankton or macrophytes. Internal nutrient loads and loading mechanisms will be characterised. Cost effective strategies for their management will be developed utilising hydrological manipulation - a largely unexplored technique.Read moreRead less
Understanding the role of vegetation in nitrogen removal by biofiltration. Many of Australia's bays and waterways are threatened by eutrophication due to excess nitrogen loads, particularly from urban stormwater. Biofiltration systems are a widely used (Melbourne Water alone has a programme of constructing 10000 systems in partnership with municipalities over the next 5 years) and potentially effective treatment, but their nitrogen removal is highly dependent on the type of vegetation used. Th ....Understanding the role of vegetation in nitrogen removal by biofiltration. Many of Australia's bays and waterways are threatened by eutrophication due to excess nitrogen loads, particularly from urban stormwater. Biofiltration systems are a widely used (Melbourne Water alone has a programme of constructing 10000 systems in partnership with municipalities over the next 5 years) and potentially effective treatment, but their nitrogen removal is highly dependent on the type of vegetation used. This project will improve the understanding of the role of vegetation in nitrogen retention by stormwater biofilters, and will thus provide important guidance on plant selection and design for biofiltration.Read moreRead less
Salinity processes in Lake Eyre Basin rivers. The unregulated rivers of the Lake Eyre Basin (LEB) provide a unique opportunity to study natural salinisation processes at multiple scales, in systems that have hydrological and biological similarities with dryland rivers in the Murray Darling Basin (MDB) and elsewhere. The rivers of the LEB maintain a high quality of ecological health despite salinity levels that can vary over two orders of magnitude with changing flow conditions. This project wil ....Salinity processes in Lake Eyre Basin rivers. The unregulated rivers of the Lake Eyre Basin (LEB) provide a unique opportunity to study natural salinisation processes at multiple scales, in systems that have hydrological and biological similarities with dryland rivers in the Murray Darling Basin (MDB) and elsewhere. The rivers of the LEB maintain a high quality of ecological health despite salinity levels that can vary over two orders of magnitude with changing flow conditions. This project will study salinity processes in the unregulated rivers of LEB and identify the dynamics of stream salinity using a combination of novel tracer and hydrological measurements and modelling.Read moreRead less
Bushfire smoke and the relationship between human and landscape health. A team of landscape ecologists, environmental chemists and public health specialists will determine the ecological causes and adverse health effects of different levels of bushfire smoke in Darwin. Darwin is an ideal setting for this research because the only source of air pollution is the high incidence of controlled and uncontrolled bushfires during the dry season causing variable air quality: a preliminary study found a ....Bushfire smoke and the relationship between human and landscape health. A team of landscape ecologists, environmental chemists and public health specialists will determine the ecological causes and adverse health effects of different levels of bushfire smoke in Darwin. Darwin is an ideal setting for this research because the only source of air pollution is the high incidence of controlled and uncontrolled bushfires during the dry season causing variable air quality: a preliminary study found a link between smoke pollution levels and asthma. The findings of the proposed research will contribute to improved fire management practices to reduce injurious smoke pollution events and contribute to setting appropriate national air quality standards.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.
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