In-situ electrochemical generation of caustic and oxygen from sewage for emission control in sewers. This project aims to deliver an innovative technology that controls the emission of notorious compounds from sewer networks using chemicals directly produced from sewage, with electricity being the input. Compared to existing methods, this technology provides a much safer and more environmentally friendly solution, at less than 50 per cent of the cost.
Synthesis of Activated Carbon Supported Zero Valent Iron Nanoparticles and Application to Contaminant Degradation in Benthic Sediments. Sediment contamination is a major problem in harbours and estuaries around Australia. For example, in Sydney Harbour, a total fishing ban has been implemented as a result of excessive levels of dioxins and benzofurans in fish tissues. There is also concern at the possibility of large scale contamination of Botany Bay as a result of historic industrial activity a ....Synthesis of Activated Carbon Supported Zero Valent Iron Nanoparticles and Application to Contaminant Degradation in Benthic Sediments. Sediment contamination is a major problem in harbours and estuaries around Australia. For example, in Sydney Harbour, a total fishing ban has been implemented as a result of excessive levels of dioxins and benzofurans in fish tissues. There is also concern at the possibility of large scale contamination of Botany Bay as a result of historic industrial activity around the Bay. While dredging and on-land treatment of sediments is being adopted at the most severely contaminated sites, the cost of this approach is exorbitant. For sites where removal of contaminated sediments cannot be justified, the approach proposed in this study of a technology that entraps contaminants and enhances their in situ biodegradation is potentially a way forward.Read moreRead less
Cover crops that decrease phosphorus (P) transport from agricultural soils by increasing the efficiency of P fertiliser application. The aim of this project is to develop cover crop practices for the heavily fertilised potato cropping soils of the Robertson district that will minimise erosion and runoff of water potentially rich in phosphorus (P), thereby resulting in significant improvements in the environmental management of this sensitive catchment area. The cover crops will: (i) improve infi ....Cover crops that decrease phosphorus (P) transport from agricultural soils by increasing the efficiency of P fertiliser application. The aim of this project is to develop cover crop practices for the heavily fertilised potato cropping soils of the Robertson district that will minimise erosion and runoff of water potentially rich in phosphorus (P), thereby resulting in significant improvements in the environmental management of this sensitive catchment area. The cover crops will: (i) improve infiltration, decrease erosion, and off-site transport of P; (ii)increase access to accumulated soil P, making it available to a subsequent potato crop, thus decreasing the P loading of the soil; and (iii) have a biofumigation effect that will reduce the use of soil fumigants.
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This proposal is a major part of initial research to be undertaken by the Aquafin CRC. This project has been jointly developed by the research agencies in close consultation with industry, Government regulators and FRDC.
Within the salmon component of the CRC Environment Program, local or on-site research needs are being addressed by an existing FRDC grant 2000/164 which is designed to determine the effects of fallowing on benthic fauna and biogeochemical processes.
The prese ....This proposal is a major part of initial research to be undertaken by the Aquafin CRC. This project has been jointly developed by the research agencies in close consultation with industry, Government regulators and FRDC.
Within the salmon component of the CRC Environment Program, local or on-site research needs are being addressed by an existing FRDC grant 2000/164 which is designed to determine the effects of fallowing on benthic fauna and biogeochemical processes.
The present proposal will examine the system-wide environmental issues facing finfish aquaculture with an initial focus on the salmonid industry. This project explicitly addresses the fact that further expansion of the salmonid industry will be limited by the industry’s contribution to nutrient loads in surrounding water bodies and possible effects on phytoplankton abundance, dissolved oxygen levels and other ecological changes. The Tasmanian State Government is proposing to limit nutrient release through the imposition of feed quotas for different regions. The quotas set are necessarily best estimates and may be overly conservative because of a lack of detailed knowledge of the effects of nutrient release on ecosystem functioning.
The modelling, laboratory and associated field work proposed here provides a mechanism to identify the minimum data needs for assessing environmental conditions, allows scenarios to be tested and key linkages in the ecology of the region to be identified. However, for these to function well we need to resolve uncertainties about the influence of waters from D’Entrecasteaux Channel on conditions in the Huon Estuary, the role of organic-rich sediments in the natural cycling of nutrients and consumption of oxygen in the estuary and the manner in which phytoplankton groups respond to elevated nutrient levels. The project will take advantage of the extensive set of environmental information, data and concepts generated by the FRDC-funded Huon Estuary Study - Environmental Research for Integrated Catchment Management and Aquaculture (Project No. 96/284; abbreviated to HES hereafter).
There is a demonstrable need for more effective monitoring of the environmental effects of finfish aquaculture. Predictive models can be used by industry and regulators to guide choices among alternative development strategies. For effective long-term management, it is also critical that effective monitoring programs are set in place, both to allow evaluation of the performance of environmental management strategies, and to assess model performance and reliability. This project will contribute to the design of long-term monitoring programs, by identifying cost-effective indicators and sampling designs which discriminate among alternative model assumptions and predictions, taking into account spatial and temporal variability. As well, the Program will seek advice and information from overseas agencies to take advantage of emerging technologies and approaches. Objectives: 1. Our overall objective is to aquire the necessary system understnding and knowldege, and apply it, in collaboration with industry and regulators, to support development of an adaptive management program which addresses system-wide impacts and production capacity for, and allows sustainable development of, salmon farms in the Huon Estuary and D'Entrecasteaux Channel. 2. Also, to develop and implement 3-D hydrodynamic and ecological models of the Huon Estuary and D'Entrecasteaux Channel, and use these to assess an predict the environmental impacts of salmon farm nutrient loads in relation to other nutrient sources (especially catchments and marine boundaries), and to assess the level of connectivity and exchange between Huon Estuary and D'Entrecasteaux Channel, and among subsystems within the D'Entrecasteaux Channel. 3. Determine the role of sediments in estuaries and nearby channel as a source of nutrient release and oxygen consumption as an input for the modes and for comparison and processes occurring in sediments under fish cages. 4. Identify and quantify the key processes that link nutrient cycles with phytoplankton abundance and composition and determine the fate of the nutrients produced in finfish cage farms in waters of the Huon Estuary and D'Entrecasteaux Channel. Read moreRead less
Environmental Genomics: Mining, climate change, water, crime and health. The new Environmental Genomics approach will employ high-powered genome sequencing systems to perform some of the first detailed genetic studies of Australian environments. The resulting high-resolution data will comprise a genetic audit, providing essential information for the accurate measurement of climate and environmental change. This method will dramatically improve the speed, and power of environmental impact assessm ....Environmental Genomics: Mining, climate change, water, crime and health. The new Environmental Genomics approach will employ high-powered genome sequencing systems to perform some of the first detailed genetic studies of Australian environments. The resulting high-resolution data will comprise a genetic audit, providing essential information for the accurate measurement of climate and environmental change. This method will dramatically improve the speed, and power of environmental impact assessments, permitting responsible resource development with major benefits to industry and the economy. It will also create new tools to improve water management and quality, biosecurity, forensics/policing and human health, as reflected by the diverse range of industry partners supporting this project.Read moreRead less
A 60% efficient solar microconcentrator for electricity and hot water. The aim of this project is to develop a microconcentrator for deployment on house roofs that will produce both solar hot water and solar electricity with a combined efficiency above 60%. The system will have a low profile and will be nearly invisible from the street. The system will track the sun. Concentration will be accomplished by a mixture of refraction and reflection. About 20% of the sunlight will be converted to elect ....A 60% efficient solar microconcentrator for electricity and hot water. The aim of this project is to develop a microconcentrator for deployment on house roofs that will produce both solar hot water and solar electricity with a combined efficiency above 60%. The system will have a low profile and will be nearly invisible from the street. The system will track the sun. Concentration will be accomplished by a mixture of refraction and reflection. About 20% of the sunlight will be converted to electricity using lines of tiny solar cells, with the balance being converted to heat which is removed by cooling fluid and stored in hot water tanks.Read moreRead less
Seagrass tolerance of oil spills - scaling of pollution impacts. Seagrasses provide vital ecosystem services (such as sediment stabilisation and habitat provision) in Australian coastal waters. The contribution of pollutants to current seagrass decline is poorly understood. The Australian shipping industry is the 5th largest in the world but there is very little data on the impacts of petroleum hydrocarbons on intertidal seagrasses and hence no information for coastal resource managers to use in ....Seagrass tolerance of oil spills - scaling of pollution impacts. Seagrasses provide vital ecosystem services (such as sediment stabilisation and habitat provision) in Australian coastal waters. The contribution of pollutants to current seagrass decline is poorly understood. The Australian shipping industry is the 5th largest in the world but there is very little data on the impacts of petroleum hydrocarbons on intertidal seagrasses and hence no information for coastal resource managers to use in decision-making in the event of an oil spill. This project will assess the relative toxicities of a number of petroleum hydrocarbons on Australian seagrass species to provide necessary data for the development of effective management practice.Read moreRead less
Special Research Initiatives - Grant ID: SR0354551
Funder
Australian Research Council
Funding Amount
$20,000.00
Summary
ARC Research Network for Renewable Energy. The proposed Research Network will integrate and coordinate the entire research field of renewable energy in Australia. This Network covers a diverse range of technologies, and includes all prominent researchers in the area of renewable energy in Australia. The Network is strengthened by the inclusion of key people from government agencies, industry, industry associations and international research organisations.
Australia is a leading player in the ....ARC Research Network for Renewable Energy. The proposed Research Network will integrate and coordinate the entire research field of renewable energy in Australia. This Network covers a diverse range of technologies, and includes all prominent researchers in the area of renewable energy in Australia. The Network is strengthened by the inclusion of key people from government agencies, industry, industry associations and international research organisations.
Australia is a leading player in the world's renewable energy industry. An effective structure for networking and for the exchange of people, information and research results will maintain and improve Australia's position in this rapidly growing industry.Read moreRead less
The LASE process - a new approach to cost effective thin solar cells. This project aims to develop a process to produce a new type of single
crystalline silicon solar cell. The cell is made on very thin slices of silicon that are detached from a conventional high quality silicon wafer. The wafer is gradually consumed as successive slices are harvested from it. Substantially less silicon is used in each solar cell, which allows significant cost reductions.