Design tools for optimising data centre layout to minimise energy usage. Data centres are major consumers of energy worldwide, mainly through the need to cool the equipment. It has become imperative to develop the science for reducing this consumption. Rising computing demand, increasing power density, and increasing infrastructure and energy costs are major issue for data centres around the world. Our research will provide a powerful alternative to conventional thermal management techniques for ....Design tools for optimising data centre layout to minimise energy usage. Data centres are major consumers of energy worldwide, mainly through the need to cool the equipment. It has become imperative to develop the science for reducing this consumption. Rising computing demand, increasing power density, and increasing infrastructure and energy costs are major issue for data centres around the world. Our research will provide a powerful alternative to conventional thermal management techniques for cooling high-density heat loads in mixed-density environments. We will address the key issue of energy minimisation through a detailed flow analyses by the use of numerical simulations and optimisation algorithms.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
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
Discovery Early Career Researcher Award - Grant ID: DE130101168
Funder
Australian Research Council
Funding Amount
$364,900.00
Summary
Enhancement of light-driven electricity generation by cyanobacteria: en route to biosolar panels. Some species of naturally occurring cyanobacteria (blue-green algae) exhibit a special metabolic feature, which enables them to convert sunlight into electricity. This project will unveil the chemical and biological secrets behind this process and will lead to the creation of the first entirely biological solar panel.
Novel Concept for Wastewater Treatment with Integrated Power Production based on Microbial Fuel Cells. Microbial fuel cells are a novel process concept that enables organics, such as sugars, to be converted directly to electricity with the help of naturally occurring microorganisms. This technology has particularly exciting applications in the environmental field, namely in wastewater treatment. It offers significant benefits over current processes, particularly reduced energy consumption or eve ....Novel Concept for Wastewater Treatment with Integrated Power Production based on Microbial Fuel Cells. Microbial fuel cells are a novel process concept that enables organics, such as sugars, to be converted directly to electricity with the help of naturally occurring microorganisms. This technology has particularly exciting applications in the environmental field, namely in wastewater treatment. It offers significant benefits over current processes, particularly reduced energy consumption or even electricity generation and lower sludge production. This project will demonstrate the performance and application of such microbial fuel cells for the removal of organic and nitrogen-based pollutants from wastewater. If successful, this technology offers major advances in both water treatment and renewable energy aspects.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
Unravelling the dynamics of nitrous oxide production in wastewater systems. This project aims to unravel the dynamics of Nitrous oxide (N2O) production in wastewater treatment systems by combining continuous stable isotope tracing techniques with innovative experimental design and sophisticated mathematical modelling. Nitrous oxide (N2O) is a potent greenhouse gas and a major contributor to the carbon footprint of wastewater treatment systems. Yet we have a poor understanding of how it is produc ....Unravelling the dynamics of nitrous oxide production in wastewater systems. This project aims to unravel the dynamics of Nitrous oxide (N2O) production in wastewater treatment systems by combining continuous stable isotope tracing techniques with innovative experimental design and sophisticated mathematical modelling. Nitrous oxide (N2O) is a potent greenhouse gas and a major contributor to the carbon footprint of wastewater treatment systems. Yet we have a poor understanding of how it is produced in such systems. The outcomes of this project will benefit Australian water utilities by helping them to reduce N2O emissions.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE150100393
Funder
Australian Research Council
Funding Amount
$335,000.00
Summary
Reducing nitrous oxide emission in wastewater systems by pathway regulation. Nitrous oxide (N2O) is a potent greenhouse gas that can be produced during biological nitrogen removal in wastewater treatment systems. N2O emissions primarily occur in aerated zones due to active striping, and ammonia-oxidizing bacteria (AOB) are the major contributors to N2O production under such conditions. The project aims to carry out a systematic study on N2O production by AOB in mixed culture wastewater treatment ....Reducing nitrous oxide emission in wastewater systems by pathway regulation. Nitrous oxide (N2O) is a potent greenhouse gas that can be produced during biological nitrogen removal in wastewater treatment systems. N2O emissions primarily occur in aerated zones due to active striping, and ammonia-oxidizing bacteria (AOB) are the major contributors to N2O production under such conditions. The project aims to carry out a systematic study on N2O production by AOB in mixed culture wastewater treatment systems. The project aims to advance the fundamental knowledge on N2O production pathways by AOB under different operational conditions, and deliver a modelling tool for reliably estimating N2O emission from wastewater treatment systems as well as strategies to reduce the emissions.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0883073
Funder
Australian Research Council
Funding Amount
$200,000.00
Summary
BigNet - A Distributed Wireless Sensor Network Testbed. The infrastructure developed will be of national /international significance, given the rapid emergence of wireless sensor networks. This integrated facility will allow Australia to be a world leading player in the research and technology development as well as the socially responsible deployment of sensor networks. The facility has the explicit aim to ensure that Australia is a technology leader rather than solely a technology user in sens ....BigNet - A Distributed Wireless Sensor Network Testbed. The infrastructure developed will be of national /international significance, given the rapid emergence of wireless sensor networks. This integrated facility will allow Australia to be a world leading player in the research and technology development as well as the socially responsible deployment of sensor networks. The facility has the explicit aim to ensure that Australia is a technology leader rather than solely a technology user in sensor networks. The test facility will mirror practical requirements for WSN implementation in the Great Barrier Reef and in timber plantation, which would offer substantial economic benefits to Australia.Read moreRead less