A landfill cover that generates electricity: a Microbial Fuel Cell application. Landfills account for over two per cent of Australia’s greenhouse emissions, dominating emissions from waste and wastewater. Methane emissions are inherent to landfills because waste cannot be permanently sealed until a landfill cell is full. In this project, a microbial fuel cell (MFC) landfill cover will be developed as a means of achieving full biogas capture, from the time that waste is placed. The MFC cover syst ....A landfill cover that generates electricity: a Microbial Fuel Cell application. Landfills account for over two per cent of Australia’s greenhouse emissions, dominating emissions from waste and wastewater. Methane emissions are inherent to landfills because waste cannot be permanently sealed until a landfill cell is full. In this project, a microbial fuel cell (MFC) landfill cover will be developed as a means of achieving full biogas capture, from the time that waste is placed. The MFC cover system would consist of a relatively thin and deformable granular graphite layer colonised by current generating methane oxidising microorganisms, overlain by a proton exchange membrane and steel mesh as the anode layer. The MFC cover will provide the benefit of power generation as well as more complete greenhouse gas mitigation. 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
Australian Laureate Fellowships - Grant ID: FL160100131
Funder
Australian Research Council
Funding Amount
$2,496,651.00
Summary
Geoengineering the Southern Ocean? A transdisciplinary assessment. Geoengineering the Southern Ocean? A transdisciplinary assessment. The project aims to comprehensively evaluate the feasibility of offsetting climate change by using geoengineering to boost carbon dioxide removal by Southern Ocean microbes. With existing polar datasets as a platform, the project would combine experiments and modelling to quantify carbon dioxide removal and critically assess the economic feasibility and side effec ....Geoengineering the Southern Ocean? A transdisciplinary assessment. Geoengineering the Southern Ocean? A transdisciplinary assessment. The project aims to comprehensively evaluate the feasibility of offsetting climate change by using geoengineering to boost carbon dioxide removal by Southern Ocean microbes. With existing polar datasets as a platform, the project would combine experiments and modelling to quantify carbon dioxide removal and critically assess the economic feasibility and side effects of geoengineering. Anticipated outcomes include a framework for governance of future research and informed national/international policy on using geoengineering to mitigate climate change.Read moreRead less
Vacuum insulated energy-efficient windows. Vacuum insulated energy-efficient windows. This project aims to develop large vacuum insulated windows with higher insulation performance than triple glazing, the best currently available, by toughening glass to increase its strength, flatness and safety. Higher performance windows reduce energy wastage in the developed world, and vacuum glazing’s thin profile means they can be retrofitted into buildings immediately, without the delay of replacing build ....Vacuum insulated energy-efficient windows. Vacuum insulated energy-efficient windows. This project aims to develop large vacuum insulated windows with higher insulation performance than triple glazing, the best currently available, by toughening glass to increase its strength, flatness and safety. Higher performance windows reduce energy wastage in the developed world, and vacuum glazing’s thin profile means they can be retrofitted into buildings immediately, without the delay of replacing building stock. The anticipated outcome is a major reduction in energy use for climate control in buildings, a large and rapidly growing energy sector that climate change makes unsustainable; and rapid economic, social and environmental benefits through sustainable climate control in cities.Read moreRead less
Production of valuable chemicals from gaseous waste. This project aims to develop an innovative biotechnology to enable the conversion of carbon dioxide (CO2) available in waste gases into liquid chemicals. This will create strong economic drivers for carbon-intensive industries to implement CO2 capture and utilisation, by significantly increasing the value of otherwise wasted CO2. Using a multi-disciplinary approach, this project will substantially advance the scientific knowledge in this excit ....Production of valuable chemicals from gaseous waste. This project aims to develop an innovative biotechnology to enable the conversion of carbon dioxide (CO2) available in waste gases into liquid chemicals. This will create strong economic drivers for carbon-intensive industries to implement CO2 capture and utilisation, by significantly increasing the value of otherwise wasted CO2. Using a multi-disciplinary approach, this project will substantially advance the scientific knowledge in this exciting and underexploited area of biological carbon recycling. The outcomes of this project will enable the establishment of a new CO2-based biotechnology sector creating high-value chemical products from waste gases, while also support achieving national target of reduction of greenhouse gas emissions.Read moreRead less
Molecular Resolution 3D Atlas of the Photosynthetic Machinery. The project aims to produce an atomic-resolution 3-D atlas of the photosynthetic machinery of single-cell green algae to guide the targeted engineering of high efficiency algae production cell lines and bio-inspired artificial solar fuel systems. Photosynthesis drives the first step of all algae production processes by capturing solar energy and converting it to chemical energy (for example sustainable fuels, food and high value prod ....Molecular Resolution 3D Atlas of the Photosynthetic Machinery. The project aims to produce an atomic-resolution 3-D atlas of the photosynthetic machinery of single-cell green algae to guide the targeted engineering of high efficiency algae production cell lines and bio-inspired artificial solar fuel systems. Photosynthesis drives the first step of all algae production processes by capturing solar energy and converting it to chemical energy (for example sustainable fuels, food and high value products), but excess light can cause photodamage. Microalgae have evolved intricate photo-protection mechanisms that can dissipate up to 90 per cent of the captured light energy. Fine-tuning the light harvesting complexes could considerably increase efficiency.Read moreRead less
Nitrous oxide and methane emissions from South East Queensland waterways and influence of wastewater discharges. Climate change caused by greenhouse gas emissions is one of the most serious challenges facing mankind. Substantial emission reduction must be achieved, with responsibilities to be shared by all sectors. Rivers, estuaries and water storages contribute considerably to global nitrous oxide and methane emissions, much of which is anthropogenic contributed by urban and agricultural run-of ....Nitrous oxide and methane emissions from South East Queensland waterways and influence of wastewater discharges. Climate change caused by greenhouse gas emissions is one of the most serious challenges facing mankind. Substantial emission reduction must be achieved, with responsibilities to be shared by all sectors. Rivers, estuaries and water storages contribute considerably to global nitrous oxide and methane emissions, much of which is anthropogenic contributed by urban and agricultural run-off and wastewater discharges. Through an in-depth study on several rivers, estuaries and reservoirs in South East Queensland, this project will provide data to enable reliable estimation of such emissions in Australia, and deliver knowledge and tool support for the development of strategic catchment management strategies.Read moreRead less
Special Research Initiatives - Grant ID: SR0354804
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
ARC Research Network on Degraded Environment Assessment and Remediation. There are over 80,000 contaminated sites in Australia and >750,000,000 hectares of land impacted by soil acidity, sodicity, heavy-metals, nutrients and agricultural chemicals. The research network advances assessment, management and remediation of degraded environments (land, water, and air) through collaboration of the research programs developing sustainable solutions. The collective focus is minimising disposal and impac ....ARC Research Network on Degraded Environment Assessment and Remediation. There are over 80,000 contaminated sites in Australia and >750,000,000 hectares of land impacted by soil acidity, sodicity, heavy-metals, nutrients and agricultural chemicals. The research network advances assessment, management and remediation of degraded environments (land, water, and air) through collaboration of the research programs developing sustainable solutions. The collective focus is minimising disposal and impacts of contaminated soil and wastes, and land remediation. By facilitating communication, the network enhances national and international research coordination, interaction with regulators, end-users, industry, and other stakeholders, achievement of critical mass for new initiatives, enhances research training and contributes to a critical National Priority.Read moreRead less
Ecological renovation of constructed wetlands: changing state from algae to macrophyte dominated systems. Mars Confectionary's constructed wastewater treatment wetlands no longer purify its waste waters. Over-burdening has tipped the balance from a plant dominated, clear water system to an algae dominated, turbid system. This project will aid restoration of the Mars wetlands by (1) improving our understanding of alage-macrophyte dynamics in shallow water basins; (2) producing a series of soft en ....Ecological renovation of constructed wetlands: changing state from algae to macrophyte dominated systems. Mars Confectionary's constructed wastewater treatment wetlands no longer purify its waste waters. Over-burdening has tipped the balance from a plant dominated, clear water system to an algae dominated, turbid system. This project will aid restoration of the Mars wetlands by (1) improving our understanding of alage-macrophyte dynamics in shallow water basins; (2) producing a series of soft engineering, ecologically based techniques for the management / rehabilitation of natural and constructed shallow water bodies which receive high nutrient loads; (3) improve decision support tools for the renovation and sustainable management of the Mars Confectionary, and similar food processing industry constructed wetlands.Read moreRead less