Supercritical Highly-Integrated and Modular, Continuous Solid-Catalysed Biodiesel Production from Plant and Animal Feedstocks. We propose to revolutionise biodiesel production by creating a new reactor type and associated process that allows the production of 160,000 tonnes of biodiesel a year in a supercritical reactor volume of one cubic metre after scale-up. In this project, we propose to design the appropriate catalysts and pilot plant to study our ideas which should lead to a highly effici ....Supercritical Highly-Integrated and Modular, Continuous Solid-Catalysed Biodiesel Production from Plant and Animal Feedstocks. We propose to revolutionise biodiesel production by creating a new reactor type and associated process that allows the production of 160,000 tonnes of biodiesel a year in a supercritical reactor volume of one cubic metre after scale-up. In this project, we propose to design the appropriate catalysts and pilot plant to study our ideas which should lead to a highly efficient and sustainable system that offers a real alternative to current mineral oil-based technologies.Read moreRead less
Multifunctional trilayer separator for durable multivalent energy storage. This project aims to develop an important new family of economical, high energy, multivalent batteries based on an abundant element, sulphur. The project plans to design a new battery separator to enable long-term stability in sulphur-based rechargeable batteries. This type of separator is of critical importance in many membrane-involved energy storage technologies. The project plans to use leading-edge durable energy tec ....Multifunctional trilayer separator for durable multivalent energy storage. This project aims to develop an important new family of economical, high energy, multivalent batteries based on an abundant element, sulphur. The project plans to design a new battery separator to enable long-term stability in sulphur-based rechargeable batteries. This type of separator is of critical importance in many membrane-involved energy storage technologies. The project plans to use leading-edge durable energy technologies to strengthen the development of residential energy systems and the involvement of renewable energy sources in modern grid.Read moreRead less
Designing integrated photocatalytic systems for simultaneous clean energy generation and water remediation. The proposal addresses the core issues of energy and water, two highly critical resources in Australia as well as worldwide. Utilising our geographically-abundant solar energy and through designing novel photocatalytic systems, the proposed research provides an ultimately clean solution by efficiently harnessing and converting the solar energy to hydrogen while remediating wastewater. Give ....Designing integrated photocatalytic systems for simultaneous clean energy generation and water remediation. The proposal addresses the core issues of energy and water, two highly critical resources in Australia as well as worldwide. Utilising our geographically-abundant solar energy and through designing novel photocatalytic systems, the proposed research provides an ultimately clean solution by efficiently harnessing and converting the solar energy to hydrogen while remediating wastewater. Given the high intensity and consistent solar output in Australia, such technology provides an almost ideal and sustainable outcome in terms of clean energy and water supply. Success in this area will place Australian researchers at the forefront of practical and functional photocatalytic technologiesRead moreRead less
Multiscale Integrated Modelling and Control of an Ethanol-Fuelled Tubular Solid Oxide Fuel Cell. The results from this project will allow use of alternative sources for energy through a better understanding of the functioning, design, operability and control of SOFCs. Fuel Cells (FCs) with biomass ethanol feed will not only act as reliable power source but also reduce greenhouse gas emissions. A successful R&D effort to develop FCs will improve the national energy security by reducing the growin ....Multiscale Integrated Modelling and Control of an Ethanol-Fuelled Tubular Solid Oxide Fuel Cell. The results from this project will allow use of alternative sources for energy through a better understanding of the functioning, design, operability and control of SOFCs. Fuel Cells (FCs) with biomass ethanol feed will not only act as reliable power source but also reduce greenhouse gas emissions. A successful R&D effort to develop FCs will improve the national energy security by reducing the growing dependency on foreign energy sources, improve the environment by reducing carbon and other harmful emissions, and improve the economic growth by expanding the portfolio of highly efficient energy and useful spill over technologies. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE180100523
Funder
Australian Research Council
Funding Amount
$359,446.00
Summary
Tailoring efficient photo-thermal catalysts for carbon dioxide reduction. This project aims to develop a highly solar-efficient and environmentally-friendly approach to reducing greenhouse gas carbon dioxide (CO2) into valuable fuels that will be beneficial for relieving energy shortage and improving global sustainability. New multifunctional catalysts will be constructed by combining various catalytic active centres and optical promoters, for optimising energy efficiency and reaction activity. ....Tailoring efficient photo-thermal catalysts for carbon dioxide reduction. This project aims to develop a highly solar-efficient and environmentally-friendly approach to reducing greenhouse gas carbon dioxide (CO2) into valuable fuels that will be beneficial for relieving energy shortage and improving global sustainability. New multifunctional catalysts will be constructed by combining various catalytic active centres and optical promoters, for optimising energy efficiency and reaction activity. Such knowledge gained is essential for the success of the low-carbon industry and a more environmentally-friendly energy economy in Australia.Read moreRead less
A novel approach for chemical looping gasification of municipal solid waste. Conventional methods of municipal solid waste disposal, such as landfill and incineration, face strong community opposition because of their adverse environmental impacts. The proposed gasification process with its features, such as low energy demand, inexpensive manufacture, and simplicity, will offer an effective and alternative solution to the problem of municipal solid waste disposal. If deployed across the country, ....A novel approach for chemical looping gasification of municipal solid waste. Conventional methods of municipal solid waste disposal, such as landfill and incineration, face strong community opposition because of their adverse environmental impacts. The proposed gasification process with its features, such as low energy demand, inexpensive manufacture, and simplicity, will offer an effective and alternative solution to the problem of municipal solid waste disposal. If deployed across the country, the volume reduction of waste will be 5 million tonnes per year. The corresponding reduction in greenhouse gases will be 15 Mega tonnes of carbon dioxide equivalent or 2.7 per cent of the net national emissions. About 9 Terra Watt hours of electricity (3 per cent of the national demand) can also be produced, generating $700 million per annum.Read moreRead less
Control of Distributed Energy Storage System using Vanadium Batteries. This project aims to develop a new control approach to distributed energy storage at stack, system and microgrid levels, utilising one of the most promising flow battery technologies - vanadium redox batteries. This is the first attempt of a storage centric approach that includes: an integrated approach to design and control of vanadium flow batteries with novel advanced power electronics technologies to achieve optimal charg ....Control of Distributed Energy Storage System using Vanadium Batteries. This project aims to develop a new control approach to distributed energy storage at stack, system and microgrid levels, utilising one of the most promising flow battery technologies - vanadium redox batteries. This is the first attempt of a storage centric approach that includes: an integrated approach to design and control of vanadium flow batteries with novel advanced power electronics technologies to achieve optimal charging/discharging conditions; and, a scalable distributed energy storage and power management approach incorporating energy pricing for storage dispatch that allows distributed autonomous controllers to achieve optimal local techno-economic performance and microgrid-wide efficiency and reliability.Read moreRead less
Enhanced mixing of turbulent jet flames via side lateral injection. This innovative project will contribute significantly to the reduction of pollutant emissions from combustion of fossil and bio-fuels through new and innovative mixing approach of fuel and oxidant. It will facilitate a range of new devices with broader application leading to export earnings, local employment and reduction of our carbon footprint.
An innovative two-phase anaerobic process for biogas production from green waste and animal droppings for remote communities. Australia's remote communities, including agricultural and Indigenous communities, are an important part of Australian society and a significant contributor to the Australian economy, yet their access to cheap, secure, reliable and clean energy remains a significant challenge. Building on recent scientific advancement in anaerobic digestion, this project will develop a ne ....An innovative two-phase anaerobic process for biogas production from green waste and animal droppings for remote communities. Australia's remote communities, including agricultural and Indigenous communities, are an important part of Australian society and a significant contributor to the Australian economy, yet their access to cheap, secure, reliable and clean energy remains a significant challenge. Building on recent scientific advancement in anaerobic digestion, this project will develop a new technology for biogas production using locally available resources such as green waste and animal droppings. The outcome of this project will provide clean energy services to regional communities while minimising greenhouse gas emissions associated with waste disposal and thus contribute to the development of an environmentally sustainable Australia.Read moreRead less
A novel mineral looping tar removal process for biomass gasification. A novel mineral looping tar removal process for biomass gasification. This project aims to develop a simple, robust and cost effective method for removing tar from biomass gasification processes. The solution (Mineral Looping Tar Removal) involves the cyclic carbonation and calcination of a mixture of naturally occurring minerals and/or solid waste to remove tar. This project will bring together energy researchers and renewabl ....A novel mineral looping tar removal process for biomass gasification. A novel mineral looping tar removal process for biomass gasification. This project aims to develop a simple, robust and cost effective method for removing tar from biomass gasification processes. The solution (Mineral Looping Tar Removal) involves the cyclic carbonation and calcination of a mixture of naturally occurring minerals and/or solid waste to remove tar. This project will bring together energy researchers and renewable energy developers to resolve science and engineering issues that underpin the performance degradation of these minerals in large-scale settings. Project outcomes include improved understanding of gas cleaning and a cost effective and environmentally sound technology.Read moreRead less