Characterisation and Treatment of Reverse Osmosis Concentrates from Water Recycling Applications. Concentrates from reverse osmosis (RO) pose a considerable threat to both the environment but also the successful implementation of reverse osmosis as a technology. Naturally, the concentrate contains everything that the RO retains and hence contaminants such as viruses, organics such as pharmaceutically active compounds and hormones as well as nutrients and salinity. Treatment of such waste streams ....Characterisation and Treatment of Reverse Osmosis Concentrates from Water Recycling Applications. Concentrates from reverse osmosis (RO) pose a considerable threat to both the environment but also the successful implementation of reverse osmosis as a technology. Naturally, the concentrate contains everything that the RO retains and hence contaminants such as viruses, organics such as pharmaceutically active compounds and hormones as well as nutrients and salinity. Treatment of such waste streams will enhance the health of receiving water bodies and reduce the risk of increased build up of contaminants if wastes are recycled into wastewater treatment plants. New ways to treat such contaminants will be explored, the efficiency and cost evaluated in the broader water cycle and sustainability framework.Read moreRead less
Supported biomass membrane bioreactor: optimisation of aeration for better fouling control. This project will lead to a sustainable, affordable, energy-efficient treatment system for water reuse. The technology developed will particularly benefit small sewage treatment plants in coastal and isolated communities in Australia, by maximising the utilisation of water resources where water is limited, and by reducing the environmental impact of waste discharges. This project will also strengthen rese ....Supported biomass membrane bioreactor: optimisation of aeration for better fouling control. This project will lead to a sustainable, affordable, energy-efficient treatment system for water reuse. The technology developed will particularly benefit small sewage treatment plants in coastal and isolated communities in Australia, by maximising the utilisation of water resources where water is limited, and by reducing the environmental impact of waste discharges. This project will also strengthen research links between Australian and European institutions through the development of this innovative technology. Local water industries will directly benefit from this frontier research.Read moreRead less
Membranes coupled with physico-chemcial treatment in water reuse: New hybrid systems development and fouling assessment. This project will be useful to sewage treatment systems prevalent in the coastal areas of NSW and Queensland and the interior parts of Northern Territory with isolated communities. Membrane processes are a sustainable technology in wastewater treatment for reuse. The novel pre-treatment and fouling assessment protocol proposed in this study are the keys for the cost-effective ....Membranes coupled with physico-chemcial treatment in water reuse: New hybrid systems development and fouling assessment. This project will be useful to sewage treatment systems prevalent in the coastal areas of NSW and Queensland and the interior parts of Northern Territory with isolated communities. Membrane processes are a sustainable technology in wastewater treatment for reuse. The novel pre-treatment and fouling assessment protocol proposed in this study are the keys for the cost-effective and energy-efficient operation and testing of membrane processes. This project will strengthen research links between Australian and European universities, through the development of an innovative pre-treatment technology. The technology is of direct benefit to reuse applications in Australia and has significant export potential.Read moreRead less
Recycling water and nutrients using a high-rate membrane bioreactor coupled with an ion-exchange system. Australia urgently needs to recycle both water and nutrients to protect its rivers and sustain its agriculture. This project will yield a sustainable, energy-efficient treatment system for water reuse and nutrient recovery. The technology's greater economy and efficiency will benefit decentralised systems in urban centres and small sewage treatment plants in isolated communities alike by en ....Recycling water and nutrients using a high-rate membrane bioreactor coupled with an ion-exchange system. Australia urgently needs to recycle both water and nutrients to protect its rivers and sustain its agriculture. This project will yield a sustainable, energy-efficient treatment system for water reuse and nutrient recovery. The technology's greater economy and efficiency will benefit decentralised systems in urban centres and small sewage treatment plants in isolated communities alike by enabling greater water reuse and by reducing the environmental impact of waste discharges. It will be of immediate benefit to the Australian water industry and to exports. This project will strengthen links in water science between Australian and European institutions.Read moreRead less
Innovative strategy for salt management and water recovery from newsprint mill effluent using membrane processes. Newsprint mills are a major employer in regional Australia. The mills are located in environmentally sensitive areas, consume large quantities of water and return high levels of salt to the environment. To remain competitive the newsprint industry, like all industries in regional Australia must develop new strategies for water recycling and salt management. Successful execution of t ....Innovative strategy for salt management and water recovery from newsprint mill effluent using membrane processes. Newsprint mills are a major employer in regional Australia. The mills are located in environmentally sensitive areas, consume large quantities of water and return high levels of salt to the environment. To remain competitive the newsprint industry, like all industries in regional Australia must develop new strategies for water recycling and salt management. Successful execution of this project will minimize water consumption in newsprint production, mitigate the effects of increased sodicity in soils irrigated with mill effluent and accelerate the commercial development a hydrophobic microporous membrane for water recycling and salt removal in environmentally sensitive areas of inland Australia.Read moreRead less
Desalination Options for Metropolitan Adelaide's Water Supply & Implications for Water Resource Allocation to Regional Communities. This project will present a proposal for water supply augmentation by desalination to alleviate rising salinity concerns and supply uncertainty of River Murray water supplies to metropolitan Adelaide in South Australia. It will investigate the feasibility of desalination options available and their consequences for regional agriculture and industry that rely on rive ....Desalination Options for Metropolitan Adelaide's Water Supply & Implications for Water Resource Allocation to Regional Communities. This project will present a proposal for water supply augmentation by desalination to alleviate rising salinity concerns and supply uncertainty of River Murray water supplies to metropolitan Adelaide in South Australia. It will investigate the feasibility of desalination options available and their consequences for regional agriculture and industry that rely on river water from metropolitan water supply pipelines for their economic survival. The project outcomes will have significant implications for government water policies and private and public sector water-infrastructure investment. It will be the first detailed study of large-scale municipal desalting costs under Australian conditions.Read moreRead less
Optimising nanofiltration and reverse osmosis filtration processes for water recycling: effects of fouling and chemical cleaning on trace contaminant removal. In Australia, water recycling is considered a principal measure to manage the current ongoing water shortage and to better protect the environment. Membrane filtration processes play important roles in the treatment of reclaimed municipal wastewater. However, there is very limited knowledge regarding the reliability of such processes in re ....Optimising nanofiltration and reverse osmosis filtration processes for water recycling: effects of fouling and chemical cleaning on trace contaminant removal. In Australia, water recycling is considered a principal measure to manage the current ongoing water shortage and to better protect the environment. Membrane filtration processes play important roles in the treatment of reclaimed municipal wastewater. However, there is very limited knowledge regarding the reliability of such processes in removing trace contaminants from recycled water, which may result in unintended health consequences. This research will lead to a comprehensive understanding of the removal process of such contaminants by membrane filtration. Consequently, the likely avenue of risk can be eliminated and the treatment process can be optimised to achieve economic savings and environmental protection.Read moreRead less
Improving biological nitrogen removal by enhanced mixing in non-aerated bioreactors. Mixing has been identified as a key factor in achieving enhanced performance out of existing and upgraded bioreactors. There is currently a poor understanding of the relationship between non-ideal flow and performance in wastewater treatment bioreactors. The project will determine this relationship and subsequently use it to show how reactor performance can be improved, providing first criteria by which mixing c ....Improving biological nitrogen removal by enhanced mixing in non-aerated bioreactors. Mixing has been identified as a key factor in achieving enhanced performance out of existing and upgraded bioreactors. There is currently a poor understanding of the relationship between non-ideal flow and performance in wastewater treatment bioreactors. The project will determine this relationship and subsequently use it to show how reactor performance can be improved, providing first criteria by which mixing can be assessed, and second a systematic methodology for improving reactor performance by improving mixing.Read moreRead less
Desalting reclaimed wastewater to safeguard Virginia's horticultural industries. Virginia is a major horticultural region of South Australia undergoing rapid expansion. Groundwater resources are depleted and reclaimed sewage effluent from Adelaide is required for irrigation. Unfortunately, the effluent is frequently too saline. Large-scale desalting is being considered. A pilot-scale plant will be built to evaluate suitable desalting processes (e.g. reverse osmosis) for reducing the effluent ....Desalting reclaimed wastewater to safeguard Virginia's horticultural industries. Virginia is a major horticultural region of South Australia undergoing rapid expansion. Groundwater resources are depleted and reclaimed sewage effluent from Adelaide is required for irrigation. Unfortunately, the effluent is frequently too saline. Large-scale desalting is being considered. A pilot-scale plant will be built to evaluate suitable desalting processes (e.g. reverse osmosis) for reducing the effluent's salt content. Original research will: (i) synthesize the best combination of technologies to produce effluent streams of varying salinity for matching different crop requirements; and (ii) optimise delivery and storage of effluent streams using new storage(s) and the region's multiple aquifer and surface storages.Read moreRead less
Determination of the fate of dissolved organic nitrogen in biological nutrient removal (BNR) processes and development of appropriate treatment technologies. The aim of this project is to better characterise the dissolved organic nitrogen (DON) in sewage treatment plant influent, determine its fate in biological nutrient removal (BNR) plants, and to evaluate and develop an appropriate treatment technology.
As a result of tightening effluent N licence requirements for sewage treatment plants, ....Determination of the fate of dissolved organic nitrogen in biological nutrient removal (BNR) processes and development of appropriate treatment technologies. The aim of this project is to better characterise the dissolved organic nitrogen (DON) in sewage treatment plant influent, determine its fate in biological nutrient removal (BNR) plants, and to evaluate and develop an appropriate treatment technology.
As a result of tightening effluent N licence requirements for sewage treatment plants, the dissolved organic nitrogen (DON) fraction has become extremely important. In many cases, the DON forms the major fraction of the effluent N, and is constraining further reductions in licence specifications, and in some cases it is the cause of failure to meet licence.
DON is refractory (un-biodegradable), very poorly characterised, its fate in conventional biological treatment processes not known, and its eventual impact on the environment unknown. Considering its importance, it is critical that these issues are addressed. This proposal intends to address some of them.
This project is an APA(I) PhD student project.Read moreRead less