Sewer corrosion reduction through model-supported ventilation control. Ventilation is one of the key technologies for sewer corrosion control. However, its design and operation are currently based on experience and empirical equations, often leading to unsatisfactory results. By integrating in-depth laboratory and pilot-sewer studies under defined conditions with extensive field investigations, this multidisciplinary project aims to develop critical models to predict the corrosion process in res ....Sewer corrosion reduction through model-supported ventilation control. Ventilation is one of the key technologies for sewer corrosion control. However, its design and operation are currently based on experience and empirical equations, often leading to unsatisfactory results. By integrating in-depth laboratory and pilot-sewer studies under defined conditions with extensive field investigations, this multidisciplinary project aims to develop critical models to predict the corrosion process in response to ventilation and dynamic wastewater and atmospheric conditions, enabling model-based sewer ventilation design and operation. The project also aims to deliver novel, field-demonstrated ventilation strategies. The project findings will be incorporated in the Australian ventilation design and operation guidelines.Read moreRead less
Thermal isolation: a novel pathway to transforming complex waste. This project aims to establish a novel pathway for transforming complex waste otherwise destined for landfill into valuable products and resources. By leveraging high temperature reactions, the team plans to thermally isolate useful carbons and silica from within automotive shredder residue (ASR) in situ, to produce activated carbon products and silica layers, and so completely recycle this bulk toxic waste for the first time. Suc ....Thermal isolation: a novel pathway to transforming complex waste. This project aims to establish a novel pathway for transforming complex waste otherwise destined for landfill into valuable products and resources. By leveraging high temperature reactions, the team plans to thermally isolate useful carbons and silica from within automotive shredder residue (ASR) in situ, to produce activated carbon products and silica layers, and so completely recycle this bulk toxic waste for the first time. Such innovative new pathways for separating out valuable materials from complex and toxic wastes offer industries an alternative low-cost and sustainable source of raw materials, while reducing pressures on landfills and finite natural resources.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
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
Ethics, responsibility and the carbon budget. This project aims to provide a rigorous ethical framework for dividing the world’s remaining ‘carbon budget’ (CB). In order to avoid climate change the world must drastically limit its emissions of greenhouse gases. The project will develop a new analysis of how our assumptions concerning risk and harm shape conception of the CB. It will also provide a new understanding of how future emission rights should be allocated given that countries have emitt ....Ethics, responsibility and the carbon budget. This project aims to provide a rigorous ethical framework for dividing the world’s remaining ‘carbon budget’ (CB). In order to avoid climate change the world must drastically limit its emissions of greenhouse gases. The project will develop a new analysis of how our assumptions concerning risk and harm shape conception of the CB. It will also provide a new understanding of how future emission rights should be allocated given that countries have emitted vastly different quantities of greenhouse gases in the past. The project will analyse how the CB will impact the climate transition plans of countries such as Australia. The project will thus bring significant new research in philosophy to bear on a practical issue.Read moreRead less
Industry Laureate Fellowships - Grant ID: IL230100175
Funder
Australian Research Council
Funding Amount
$3,763,434.00
Summary
Combatting wildlife crime and preventing environmental harm. Wildlife crime is one of the greatest threats to environmental and human security across the globe. In Australia, the illegal harvesting, killing, and trade of wild animals and plants endangers the country’s unique biodiversity and poses serious biosecurity risks to natural and agricultural systems. This Fellowship will deliver the intelligence tools and technologies, in wildlife forensics and cyber security, that are required for step ....Combatting wildlife crime and preventing environmental harm. Wildlife crime is one of the greatest threats to environmental and human security across the globe. In Australia, the illegal harvesting, killing, and trade of wild animals and plants endangers the country’s unique biodiversity and poses serious biosecurity risks to natural and agricultural systems. This Fellowship will deliver the intelligence tools and technologies, in wildlife forensics and cyber security, that are required for step-change reductions in wildlife crime in Australia, and Asia-Pacific. The project will establish new approaches for raising public awareness of the dangers of wildlife crime and provide much needed stewardship to protect Australia’s environmental assets and natural capital from current and future threats.Read moreRead less
Contribution of Comammox Process to Sustainable Wastewater Treatment. This project aims to understand the versatility, activity and physiological features of comammox bacteria, the newly-discovered complete nitrifiers, in Australian wastewater treatment systems, and to model and evaluate their contributions to biological nitrogen removal process. Nitrogen transformations are crucial microbial processes in the wastewater treatment ecosystems, with nitrification largely responsible for ammonium ox ....Contribution of Comammox Process to Sustainable Wastewater Treatment. This project aims to understand the versatility, activity and physiological features of comammox bacteria, the newly-discovered complete nitrifiers, in Australian wastewater treatment systems, and to model and evaluate their contributions to biological nitrogen removal process. Nitrogen transformations are crucial microbial processes in the wastewater treatment ecosystems, with nitrification largely responsible for ammonium oxidation but comammox previously overlooked. The expected outcomes will develop new knowledge on the comammox process and provide novel insight and technological solution to refine strategies to manipulate nitrification processes for achieving improved biological nitrogen removal and sustainable wastewater management.Read moreRead less
On-site environmental DNA sensing with user-friendly test strips. Organisms shed their genes into the environment. This project aims to develop world-first field-portable biosensors for this environmental DNA. Based on a novel sensing principle, they will offer performance comparable with current laboratory-based techniques. They will be rapid (< 1 h), cost -effective (< $ 1 per strip) and robust. Project outcomes will include tube-based tests able to detect 1 DNA copy / microlitre and ultraligh ....On-site environmental DNA sensing with user-friendly test strips. Organisms shed their genes into the environment. This project aims to develop world-first field-portable biosensors for this environmental DNA. Based on a novel sensing principle, they will offer performance comparable with current laboratory-based techniques. They will be rapid (< 1 h), cost -effective (< $ 1 per strip) and robust. Project outcomes will include tube-based tests able to detect 1 DNA copy / microlitre and ultralight paper test strips, both with naked-eye readout. Applications of these sensors in water testing will be developed with an Australian industry partner Biopoint. Benefits will include strengthened protection against invasive pests and the spread of antimicrobial resistance without lab testing and sample logistics.Read moreRead less
Long range toxic metal pollution in Australia and the Southern Ocean. This project aims to investigate how environmental change and human activities since industrialisation have impacted toxic metal transport and deposition on the south coast of Australia, Tasmania and Southern Ocean islands. This project expects to fill gaps in understanding of the global mercury cycle using a state-of-the-art multidisciplinary methodology including the role of sea salt aerosols and hemispheric-scale wind patte ....Long range toxic metal pollution in Australia and the Southern Ocean. This project aims to investigate how environmental change and human activities since industrialisation have impacted toxic metal transport and deposition on the south coast of Australia, Tasmania and Southern Ocean islands. This project expects to fill gaps in understanding of the global mercury cycle using a state-of-the-art multidisciplinary methodology including the role of sea salt aerosols and hemispheric-scale wind patterns . Anticipated outcomes involve a novel palaeo-atmospheric model that can be applied in other parts of the world. This should provide significant benefits, such as science-based evidence to ratify the Minamata Convention on Mercury and guide new regulations to reduce environmental/health risks from metal pollution.
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Elemental release and oxidant production from mixed coal mine dusts. The aim of this project is to understand the implications of physical and chemical characteristics of mixed coal mine dusts to their elemental release and oxidant production. The re-emergence of occupational lung diseases in recent years has revealed a major knowledge gap in the area of respirable particle reactivity. This research will examine the role between coal mine dust and their capacity to produce reactive oxygen specie ....Elemental release and oxidant production from mixed coal mine dusts. The aim of this project is to understand the implications of physical and chemical characteristics of mixed coal mine dusts to their elemental release and oxidant production. The re-emergence of occupational lung diseases in recent years has revealed a major knowledge gap in the area of respirable particle reactivity. This research will examine the role between coal mine dust and their capacity to produce reactive oxygen species, with the focus being on the role of physical and chemical properties of particles and how they transform with age. The findings will be used to develop screening protocols and develop novel monitoring / mitigation strategies for coal mine workers.Read moreRead less