Maximising Bioenergy Recovery from Sewage Sludge. Sewage treatment is producing large amounts of sewage sludge, which represents a substantial, but largely untapped, energy source. This project aims to develop and demonstrate an innovative, economically attractive and environmentally friendly technology, and the underpinning science, to maximize bioenergy recovery from sewage sludge. The technology is based on the treatment of sludge using free ammonia, a by-product of sewage treatment. This pro ....Maximising Bioenergy Recovery from Sewage Sludge. Sewage treatment is producing large amounts of sewage sludge, which represents a substantial, but largely untapped, energy source. This project aims to develop and demonstrate an innovative, economically attractive and environmentally friendly technology, and the underpinning science, to maximize bioenergy recovery from sewage sludge. The technology is based on the treatment of sludge using free ammonia, a by-product of sewage treatment. This project is expected to benefit Australia by substantially reducing the reliance on fossil fuels and accelerating a shift to affordable renewable energy. The outcomes of the project would provide significant energy, economic, environmental and social benefits for Australians. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE160100667
Funder
Australian Research Council
Funding Amount
$340,000.00
Summary
Removing a Key Barrier for Autotrophic Nitrogen Removal from Wastewater. This project aims to develop new technology to enable stable autotrophic nitrogen removal from domestic wastewater. The technology selectively suppresses the growth of nitrite-oxidising bacteria using a by-product of wastewater treatment – free nitrous acid. Maximising energy recovery from wastewater and providing greenhouse gas neutral water services have been the targets of water utilities in Australia and worldwide. The ....Removing a Key Barrier for Autotrophic Nitrogen Removal from Wastewater. This project aims to develop new technology to enable stable autotrophic nitrogen removal from domestic wastewater. The technology selectively suppresses the growth of nitrite-oxidising bacteria using a by-product of wastewater treatment – free nitrous acid. Maximising energy recovery from wastewater and providing greenhouse gas neutral water services have been the targets of water utilities in Australia and worldwide. The project will potentially change wastewater management and bring economic, environmental and social benefits to water utilities.Read moreRead less
Sustainable wastewater management. This project aims to extract high-value liquid products (medium-chain fatty acids) from wastewater with minimised greenhouse gas emissions and energy consumption, in addition to clean water. Traditional wastewater treatment removes organic carbon and nutrients by using vast amounts of energy and releasing greenhouse gas. However, wastewater is a substantial but largely untapped renewable resource. The intended outcome is to transform wastewater from a troubleso ....Sustainable wastewater management. This project aims to extract high-value liquid products (medium-chain fatty acids) from wastewater with minimised greenhouse gas emissions and energy consumption, in addition to clean water. Traditional wastewater treatment removes organic carbon and nutrients by using vast amounts of energy and releasing greenhouse gas. However, wastewater is a substantial but largely untapped renewable resource. The intended outcome is to transform wastewater from a troublesome pollutant to a valuable resource and reduce carbon footprints.Read moreRead less
Microbial Control in Wastewater Systems Using a Renewable Material. The project aims to address 3 long-standing problems and an emerging problem for wastewater systems by developing a suite of innovative technologies for microbial control. These will use a renewable material from wastewater. The project expects to advance understanding of microbiology to improve processes for removing phosphorus, managing sludge bulking, cleaning membranes, and reducing the spread of antibiotic resistance. Expec ....Microbial Control in Wastewater Systems Using a Renewable Material. The project aims to address 3 long-standing problems and an emerging problem for wastewater systems by developing a suite of innovative technologies for microbial control. These will use a renewable material from wastewater. The project expects to advance understanding of microbiology to improve processes for removing phosphorus, managing sludge bulking, cleaning membranes, and reducing the spread of antibiotic resistance. Expected outcomes include substantial cost reduction, a secure resource future, and elimination of the need to use chemicals that present safety risks to workers and the environment. The project should benefit public health, the environment and the water industry, as well as create commercial opportunities in Australia.Read moreRead less
Industrial Transformation Research Hubs - Grant ID: IH130200025
Funder
Australian Research Council
Funding Amount
$2,181,756.00
Summary
ARC Research Hub for transforming waste directly in cost-effective green manufacturing. ARC Research Hub for transforming waste directly in cost-effective green manufacturing. This Research Hub aims to create a unique opportunity for completely different industries to come together, with a common goal of creating value from mixed plastic and glass waste in manufacturing. Starting with fundamental investigations of the transformation behaviour of waste materials under high temperature conditions, ....ARC Research Hub for transforming waste directly in cost-effective green manufacturing. ARC Research Hub for transforming waste directly in cost-effective green manufacturing. This Research Hub aims to create a unique opportunity for completely different industries to come together, with a common goal of creating value from mixed plastic and glass waste in manufacturing. Starting with fundamental investigations of the transformation behaviour of waste materials under high temperature conditions, the hub will focus on developing scalable solutions for its manufacturing partners towards reducing the consumption of primary resources while simultaneously diverting waste streams from landfill. Additionally, the potential of using such transformations to yield improved products such as wear-resistant grinding media and light-weight building materials will be investigated to enhance Australian manufacturing.Read moreRead less
Industrial Transformation Research Hubs - Grant ID: IH190100009
Funder
Australian Research Council
Funding Amount
$3,317,500.00
Summary
ARC Research Hub for Microrecycling of battery and consumer wastes . This project aims to transform Australia’s waste and resource recovery industry by equipping it with scientifically developed advanced manufacturing capability, focusing on small-scale processing of materials produced from battery and consumer wastes which would otherwise mostly end up in landfill. The project will deliver new knowledge in high-temperature reactions of waste and selective synthesis techniques to transform waste ....ARC Research Hub for Microrecycling of battery and consumer wastes . This project aims to transform Australia’s waste and resource recovery industry by equipping it with scientifically developed advanced manufacturing capability, focusing on small-scale processing of materials produced from battery and consumer wastes which would otherwise mostly end up in landfill. The project will deliver new knowledge in high-temperature reactions of waste and selective synthesis techniques to transform waste into valuable materials and products, including metallic alloys, oxides and carbon. Expected outcomes include industry adoption of commercially viable technology and processes where low value or complex waste is reformed into higher value materials, creating jobs and significant environmental and social benefits.Read moreRead less
Recycling lignocellulosic agricultural waste as an iron oxide reductant in ferrous processing. This project seeks to recycle agricultural waste as a renewable carbon resource to replace coal-based metallurgical coke as a raw material in ferrous processing. This approach will lead to an innovative recycling of this waste, wherein nothing is wasted and maximum value is extracted from agricultural materials.
Novel recycling approach for automotive waste glass and plastics. This project will develop innovative recycling of automotive waste containing glass and plastics by converting them into value-added material resources. The project outcomes will allow industries to tackle this global waste challenge, reduce landfill burden and enhance waste recycling in Australia.
Australian Laureate Fellowships - Grant ID: FL140100215
Funder
Australian Research Council
Funding Amount
$2,370,000.00
Summary
Fundamental high temperature e-waste investigations for high-value products. Fundamental high temperature e-waste investigations for high-value products. This project aims to transform toxic electronic waste (e-waste) into value added metals and alloys, simultaneously segregating hazardous constituents and preventing the generation of harmful emissions during processing. Huge stockpiles of this fast growing waste stream are creating a crisis of quantity as well as of toxic ingredients posing ser ....Fundamental high temperature e-waste investigations for high-value products. Fundamental high temperature e-waste investigations for high-value products. This project aims to transform toxic electronic waste (e-waste) into value added metals and alloys, simultaneously segregating hazardous constituents and preventing the generation of harmful emissions during processing. Huge stockpiles of this fast growing waste stream are creating a crisis of quantity as well as of toxic ingredients posing serious health and environmental problems. Using atomic-level simulations, rapid heating, high temperatures (1000-1600 C) and selective thermal transformations, this project aims to establish novel pathways for a controlled transformation of e-waste. Microrecycling fundamentals on high temperature transformations of metals, plastics and oxides and other micro-level phenomena will be established.Read moreRead less
Industrial Transformation Research Hubs - Grant ID: IH210100001
Funder
Australian Research Council
Funding Amount
$2,062,428.00
Summary
ARC Research Hub for Nutrients in a Circular Economy (NiCE). Urban utilities are in need to design resilient wastewater infrastructure to tackle the pressures of urban intensification, waterways pollution and climate change. This Hub aims to transform the wastewater industry with an unprecedented, city-scale circular economy of nutrients based on urine separation and processing at building level, to produce safe and effective liquid fertilisers. By engaging with stakeholders across the value cha ....ARC Research Hub for Nutrients in a Circular Economy (NiCE). Urban utilities are in need to design resilient wastewater infrastructure to tackle the pressures of urban intensification, waterways pollution and climate change. This Hub aims to transform the wastewater industry with an unprecedented, city-scale circular economy of nutrients based on urine separation and processing at building level, to produce safe and effective liquid fertilisers. By engaging with stakeholders across the value chain, this Hub expects to bring two urine processing technologies to commercial readiness, and to produce new regulations and business models for the circular economy. This will add resilience to the wastewater and urban farming industries, and will create market opportunities for new Australian technologies.Read moreRead less