Australian Laureate Fellowships - Grant ID: FL170100086
Funder
Australian Research Council
Funding Amount
$2,924,858.00
Summary
Methane bioconversion to liquid chemicals. This project aims to develop a suite of leading-edge biotechnology solutions to enable the cost-effective production of liquid chemicals from biogas. This will create a much stronger economic driver for biogas production from organic wastes, by significantly increasing the value of biogas compared to its current use for power generation. With a multi-disciplinary approach, the project will substantially advance the fundamental science in the exciting an ....Methane bioconversion to liquid chemicals. This project aims to develop a suite of leading-edge biotechnology solutions to enable the cost-effective production of liquid chemicals from biogas. This will create a much stronger economic driver for biogas production from organic wastes, by significantly increasing the value of biogas compared to its current use for power generation. With a multi-disciplinary approach, the project will substantially advance the fundamental science in the exciting and highly valuable area of anaerobic microbial conversion of methane, the least understood process in the global carbon cycle. This transformational research has a strong potential to create a new biotechnology sector producing high-value chemicals from methane, and will propel Australia to the forefront of sustainable resources research.Read moreRead less
Development of redox-mediated microbial assays for the rapid characterisation and assessment of wastewater, wastewater treatment processes and recycled water. With SE Qld on Level 5 water restrictions the need to reduce our demand on drinking water by increasing our reliance on recycled water is now urgent. To achieve this we need to ensure that the quality of our recycled wastewater is of a suitable and reliable standard. This project will assist the water industry in this endeavour by the de ....Development of redox-mediated microbial assays for the rapid characterisation and assessment of wastewater, wastewater treatment processes and recycled water. With SE Qld on Level 5 water restrictions the need to reduce our demand on drinking water by increasing our reliance on recycled water is now urgent. To achieve this we need to ensure that the quality of our recycled wastewater is of a suitable and reliable standard. This project will assist the water industry in this endeavour by the developing monitoring techniques that can rapidly characterise and assess the effectiveness of wastewater treatment processes and the quality of the water derived from them. These methods will provide early warnings of potential 'upsets' in treatment plants that would otherwise result in poor quality effluents that would need to be discharged as waste rather than be recycled.Read moreRead less
Special Research Initiatives - Grant ID: SR180100040
Funder
Australian Research Council
Funding Amount
$381,468.00
Summary
Efficient PFAS removal from urban wastewater using a novel two-step approach. This project aims to enhance the removal of per- and poly-fluroalkyl substances (PFAS) compounds from municipal wastewater by making two simple amendments to standard wastewater treatment plants. Magnetite nanoparticles will be added to the treatment process, which adsorb PFAS compounds and reduce them to acceptable environmental levels. The resulting sludge will be dried and ashed in a simple and novel self-sustaining ....Efficient PFAS removal from urban wastewater using a novel two-step approach. This project aims to enhance the removal of per- and poly-fluroalkyl substances (PFAS) compounds from municipal wastewater by making two simple amendments to standard wastewater treatment plants. Magnetite nanoparticles will be added to the treatment process, which adsorb PFAS compounds and reduce them to acceptable environmental levels. The resulting sludge will be dried and ashed in a simple and novel self-sustaining smoldering process which will render the captured PFAS to small ash, condensate and gaseous streams suitable for established destruction technologies. The project is expected to provide support to water utilities in achieving sustainable water treatment and result in environmental and social benefits to the community.Read moreRead less
Early Career Industry Fellowships - Grant ID: IE230100385
Funder
Australian Research Council
Funding Amount
$453,237.00
Summary
"Circular Economy", via renewable energy and resource recovery. In a circular economy context, wastewater utilities are well placed to exploit the commercial potential of microalgae. Sewage treatment plants have an abundance of key nutrients required for algae growth, existing dewatering infrastructure that is suitable for harvesting algae and in some cases, existing anaerobic digestion infrastructure suitable for the conversion of microalgae to renewable energy in the form of biogas. This proje ...."Circular Economy", via renewable energy and resource recovery. In a circular economy context, wastewater utilities are well placed to exploit the commercial potential of microalgae. Sewage treatment plants have an abundance of key nutrients required for algae growth, existing dewatering infrastructure that is suitable for harvesting algae and in some cases, existing anaerobic digestion infrastructure suitable for the conversion of microalgae to renewable energy in the form of biogas. This project aims to upscale wastewater-based algae production that will enable increased renewable energy production via anaerobic digestion, for onsite thermal, electrical energy and upgraded liquefied natural gas.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240100531
Funder
Australian Research Council
Funding Amount
$427,000.00
Summary
Circular clean energy regulation to solve the PV solar waste crisis. This project aims to design a new analytical framework, circular clean energy regulation, to fundamentally re-orient renewable energy law from the accelerated uptake of new technologies to a lifecycle approach. This re-orientation is urgently needed because while Australia is world leading in its uptake of rooftop solar, 90% of used panels go to landfill as hazardous waste. This project will explore how circular clean energy re ....Circular clean energy regulation to solve the PV solar waste crisis. This project aims to design a new analytical framework, circular clean energy regulation, to fundamentally re-orient renewable energy law from the accelerated uptake of new technologies to a lifecycle approach. This re-orientation is urgently needed because while Australia is world leading in its uptake of rooftop solar, 90% of used panels go to landfill as hazardous waste. This project will explore how circular clean energy regulation can improve the management of solar waste to reap the significant environmental, security and health benefits associated with solar recycling and critical mineral recovery. Expected outcomes include a new circular model of regulating renewable technologies, and better regulation and recovery of solar waste.Read moreRead less
A novel process for removing phosphorus microbiologically from wastewater. Australia is a water limited continent, and its rivers and lakes are priceless assets, but because of climatic conditions, these are especially sensitive to blooms of 'blue green algae'. Some are highly toxic, and water containing them is unsuitable for most purposes. Current technology for P removal requires constructing complex plant configurations, and most of these operate unpredictably and unreliably. This project ....A novel process for removing phosphorus microbiologically from wastewater. Australia is a water limited continent, and its rivers and lakes are priceless assets, but because of climatic conditions, these are especially sensitive to blooms of 'blue green algae'. Some are highly toxic, and water containing them is unsuitable for most purposes. Current technology for P removal requires constructing complex plant configurations, and most of these operate unpredictably and unreliably. This project will develop and fully evaluate a revolutionarily different alternative with a fully aerobic system, capable of being added onto the end of a conventional treatment plant, making protection of rivers and streams simpler and more feasible. Read moreRead less
Biocontrol of foaming in activated sludge plants with bacteriophages. Activated sludge systems are the most widely used processes for treating wastewater in Australia. Yet most eventually suffer from episodes of bulking and foaming, where high levels of biosolids leave the plant with the treated waste, representing serious pollution hazards. Attempts to solve these problems have met with limited success.The highly novel biocontrol method proposed here will provide a specific, environmentally fri ....Biocontrol of foaming in activated sludge plants with bacteriophages. Activated sludge systems are the most widely used processes for treating wastewater in Australia. Yet most eventually suffer from episodes of bulking and foaming, where high levels of biosolids leave the plant with the treated waste, representing serious pollution hazards. Attempts to solve these problems have met with limited success.The highly novel biocontrol method proposed here will provide a specific, environmentally friendly and safe method to protect our rivers, streams and oceans form the harmful consequences of these problemsRead moreRead less
BCA - Prawn Farm Effluent: Origin, Composition And Treatment
Funder
Fisheries Research and Development Corporation
Funding Amount
$5,981.05
Summary
Objectives: 1. Construct nutrient (nitrogen, phosphorus) and suspended solid budgets (inputs and outputs) for entire prawn farms at tropical and temperate locations. 2. Determine the origin and composition of pond effluent. For example, establish the proportion of nutrients which originate from fertilization compared to food input; determine the suspended solids load in intake water compared with effluent. 3. Assess alternative methods of pond effluent prevention and treatment. ....Objectives: 1. Construct nutrient (nitrogen, phosphorus) and suspended solid budgets (inputs and outputs) for entire prawn farms at tropical and temperate locations. 2. Determine the origin and composition of pond effluent. For example, establish the proportion of nutrients which originate from fertilization compared to food input; determine the suspended solids load in intake water compared with effluent. 3. Assess alternative methods of pond effluent prevention and treatment. Read moreRead less
Industrial Transformation Research Hubs - Grant ID: IH230100011
Funder
Australian Research Council
Funding Amount
$4,955,854.00
Summary
ARC Research Hub for Value-Added Processing of Underutilised Carbon Waste. This Hub aims to advance upcycling technologies and associated regulatory and social engagement for processing underutilised carbon waste within Australia. Its anticipated goal is to deliver value-added products, and improved technology readiness levels for full exploitation of carbon wastes from agriculture, tyres and plastics. It will also train a large talent pool providing interdisciplinary knowledge and entrepreneuri ....ARC Research Hub for Value-Added Processing of Underutilised Carbon Waste. This Hub aims to advance upcycling technologies and associated regulatory and social engagement for processing underutilised carbon waste within Australia. Its anticipated goal is to deliver value-added products, and improved technology readiness levels for full exploitation of carbon wastes from agriculture, tyres and plastics. It will also train a large talent pool providing interdisciplinary knowledge and entrepreneurial skills for post-hub commercialisation. The Hub will benefit rural Australia by transforming local job markets and manufacturing capability. Ultimately, this Hub will make a significant contribution towards achieving Australia’s National Waste Action Plan goal by 2030, and a circular economy for a sustainable future. Read moreRead less
Mid-Career Industry Fellowships - Grant ID: IM230100527
Funder
Australian Research Council
Funding Amount
$1,051,456.00
Summary
Transforming harvest surplus into nutritious meals for food relief. The project aims to transform currently wasted harvest surplus into nutritious shelf-stable plant-based products for the food-relief sector. It integrates novel social-enterprise models with advanced food manufacturing and bespoke training and volunteering opportunities for food insecure individuals, to facilitate their pathway out of food insecurity. In close collaboration with food relief supply-chain provider Foodbank SA and ....Transforming harvest surplus into nutritious meals for food relief. The project aims to transform currently wasted harvest surplus into nutritious shelf-stable plant-based products for the food-relief sector. It integrates novel social-enterprise models with advanced food manufacturing and bespoke training and volunteering opportunities for food insecure individuals, to facilitate their pathway out of food insecurity. In close collaboration with food relief supply-chain provider Foodbank SA and policymaker Green Industries SA, the project will tackle two major problems for Australia – food insecurity and food waste – through systems thinking and leveraging underused resources, while building collaborations across academia and multiple industry sectors.Read moreRead less