Understanding wastewater treatment technologies for alternative water use: transformation of inorganic and organic nitrogen. This project will identify sustainable treatment processes for nitrogen and pathogen removal in rural wastewater treatment systems. The outcomes will provide water utilities and regulators with practical recommendations for minimising chemical and microbial risks of alternative uses of treated wastewater, and improve rural long-term water security.
Advanced water treatment technologies to minimise nitrogenous disinfection by-products in drinking water: understanding the role of organic nitrogen. This project will identify improved methods for treatment of drinking water to prevent the formation of potentially hazardous disinfection by-products. It will assist water resource managers and regulators to select the most economical and safe treatment for each type of water source and to plan for future demands on our limited water supplies.
Treating wastewater for potable reuse: removal of chemicals of concern using advanced oxidation processes. The project promotes Australia as a leader in water reuse technology and is of benefit to reuse schemes globally. Several major reuse schemes are planned for Australia and it is well recognised that robust science is needed for public confidence. Community perception is a serious barrier to potable reuse and the results from this project will provide essential and independent information fo ....Treating wastewater for potable reuse: removal of chemicals of concern using advanced oxidation processes. The project promotes Australia as a leader in water reuse technology and is of benefit to reuse schemes globally. Several major reuse schemes are planned for Australia and it is well recognised that robust science is needed for public confidence. Community perception is a serious barrier to potable reuse and the results from this project will provide essential and independent information for informed decision making. The oxidation processes proposed will improve the quality of both recycled water and waste brine, providing environmental and economic benefit. This is particularly significant for regional Australia, where there is substantial demand for both water reuse and cost-effective waste disposal in the absence of ocean discharge.Read moreRead less
Novel water treatment technologies for minimisation of bromide and iodide in drinking water. This project will develop innovative new water treatment processes to selectively remove bromide and iodide from potable source waters. The project promotes Australia as a leader in water treatment technology. Successful outcomes will have excellent potential for international commercialisation by spin-off companies and will provide economic benefits and prestige locally. Economic benefits include lower ....Novel water treatment technologies for minimisation of bromide and iodide in drinking water. This project will develop innovative new water treatment processes to selectively remove bromide and iodide from potable source waters. The project promotes Australia as a leader in water treatment technology. Successful outcomes will have excellent potential for international commercialisation by spin-off companies and will provide economic benefits and prestige locally. Economic benefits include lower costs to water utilities through the availability of improved technology for treatment of marginal quality water supplies and improved ability to comply with water quality guidelines. Public perception and confidence in water supply quality will be enhanced, due to reduction in taste and odour issues and disinfection by-products. Read moreRead less
Advanced water treatment technologies to minimize the formation of emerging disinfection by-products in potable and reuse water. Disinfectant management and disinfection by-products are of concern to water utilities, water treatment researchers and consumers worldwide. The project will make a world-class contribution to these issues, through use of state-of-the-art equipment and developed technologies. Sophisticated characterization of disinfection by-product precursors, especially poorly define ....Advanced water treatment technologies to minimize the formation of emerging disinfection by-products in potable and reuse water. Disinfectant management and disinfection by-products are of concern to water utilities, water treatment researchers and consumers worldwide. The project will make a world-class contribution to these issues, through use of state-of-the-art equipment and developed technologies. Sophisticated characterization of disinfection by-product precursors, especially poorly defined less volatile species, will provide insights into the relationship between their chemical structures and behaviour in treatment processes, benefiting all water utilities. The project will inform new drinking water guidelines and assist water utilities to balance the competing requirements of maintaining effective pathogen barriers versus disinfection by-product control.Read moreRead less
Stable carbon isotope compositions and distributions of age-diagnostic molecular fossils in Indonesian oils and source rocks for oil-source correlations. The project aims to develop a novel organic geochemical tool for determining a reliable geological age of sedimentary organic matter. The method involves measuring stable carbon isotope signatures of age-specific molecular fossils derived from land plants. To obtain accurate signatures separation techniques focusing on the compounds of interest ....Stable carbon isotope compositions and distributions of age-diagnostic molecular fossils in Indonesian oils and source rocks for oil-source correlations. The project aims to develop a novel organic geochemical tool for determining a reliable geological age of sedimentary organic matter. The method involves measuring stable carbon isotope signatures of age-specific molecular fossils derived from land plants. To obtain accurate signatures separation techniques focusing on the compounds of interest will be developed. The application of this approach in oil to source rock correlations has promise in petroleum basin studies, especially exploration, as evidenced by the strong support from Unocal. It is antipicated that the outcomes of this research will be valuable to other petroleum provinces (especially within Australia).
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