DROP DEFORMATION IN CONFINED MICROFLUIDIC GEOMETRIES. Increasingly, high technology applications in biotechnology and microtechnology industries need to process complex (non-Newtonian) fluids with dispersed particles/droplets in channels as small as several microns (microfluidics). A computational fluid dynamic model of non-Newtonian droplet deformation in microfluidic geometries will be developed, and validated using experimental measurements of the flow field in this project. The aim is to und ....DROP DEFORMATION IN CONFINED MICROFLUIDIC GEOMETRIES. Increasingly, high technology applications in biotechnology and microtechnology industries need to process complex (non-Newtonian) fluids with dispersed particles/droplets in channels as small as several microns (microfluidics). A computational fluid dynamic model of non-Newtonian droplet deformation in microfluidic geometries will be developed, and validated using experimental measurements of the flow field in this project. The aim is to understand and quantify factors influencing droplet deformation. Coupling non-Newtonian characteristics with microfluidic geometries will allow the continuous manufacture of micro-particles of specified size and shape for existing and new applications, and will provide guidance for further extending the process to nano-particle manufacture.Read moreRead less
Industrial Transformation Training Centres - Grant ID: IC170100032
Funder
Australian Research Council
Funding Amount
$4,272,072.00
Summary
ARC Training Centre in Fire Retardant Materials and Safety Technologies. The ARC Training Centre in Fire Retardant Materials and Safety Technologies aims to train a cohort of industry-focused researchers to improve the fire safety of lightweight materials and structures and fire protection systems. The Training Centre expects to create knowledge on novel green and durable fire retardant materials, advanced fire models for urban and built environment, fire suppression technologies, and new flamma ....ARC Training Centre in Fire Retardant Materials and Safety Technologies. The ARC Training Centre in Fire Retardant Materials and Safety Technologies aims to train a cohort of industry-focused researchers to improve the fire safety of lightweight materials and structures and fire protection systems. The Training Centre expects to create knowledge on novel green and durable fire retardant materials, advanced fire models for urban and built environment, fire suppression technologies, and new flammability tests for compliance with fire safety regulatory standards. An expected outcome of this Training Centre is to accelerate the transformation of Australia’s industries in fire retardant materials, products and engineering services.Read moreRead less
Enabling low greenhouse gas emissions from road vehicles through the proper use of alternative fuels. A major increase in alternative transport fuel use appears necessary in our response to the challenges of climate change and energy security. This proposal will advance our fundamental understanding of key aspects of the combustion of particular alternative fuels, thus enabling proper engine design and so maximising greenhouse and energy security benefits. Further, the Australian automotive indu ....Enabling low greenhouse gas emissions from road vehicles through the proper use of alternative fuels. A major increase in alternative transport fuel use appears necessary in our response to the challenges of climate change and energy security. This proposal will advance our fundamental understanding of key aspects of the combustion of particular alternative fuels, thus enabling proper engine design and so maximising greenhouse and energy security benefits. Further, the Australian automotive industry is a major employer and exporter, and needs to develop and/or maintain international leadership in low emission technologies to ensure its long term viability. This proposal builds a consortium of local organisations with common interests, thus helping local industry respond to several, significant challenges that they presently face.Read moreRead less
Thermal transport in multi-phase flows for concentrating solar applications. This project seeks to advance the field of heat transfer in high-temperature systems involving liquid metals, with emphasis on energy storage and solar power technologies. The concept couples a tubular sodium boiler with a sodium chloride phase-change storage system for continuous energy supply. Sodium chloride is low cost and has a melting temperature suitable for a wide range of industrial processes. The project plans ....Thermal transport in multi-phase flows for concentrating solar applications. This project seeks to advance the field of heat transfer in high-temperature systems involving liquid metals, with emphasis on energy storage and solar power technologies. The concept couples a tubular sodium boiler with a sodium chloride phase-change storage system for continuous energy supply. Sodium chloride is low cost and has a melting temperature suitable for a wide range of industrial processes. The project plans to address the challenge of sodium stability in highly irradiated tubes by investigating mass, momentum, energy and radiative transport in liquid metals. It is intended that this will inform the design and testing of novel sodium boilers to provide stable and isothermal process heat for continuous or on-demand production of power, chemical fuels and commodities.Read moreRead less
Thermal transport by design for fast and efficient solar thermochemical fuel production. This project aims to demonstrate the utility of the thermal transport by design approach to develop functionally graded reactive materials that allow for fast and efficient solar thermo-chemical fuel production. Prediction capabilities will be developed to optimise multi-scale radiative and gas transport coupled with non-stoichiometric redox reactions. Synthesis gas production will be demonstrated using the ....Thermal transport by design for fast and efficient solar thermochemical fuel production. This project aims to demonstrate the utility of the thermal transport by design approach to develop functionally graded reactive materials that allow for fast and efficient solar thermo-chemical fuel production. Prediction capabilities will be developed to optimise multi-scale radiative and gas transport coupled with non-stoichiometric redox reactions. Synthesis gas production will be demonstrated using the new structures in a prototype solar thermochemical reactor under high-flux irradiation. This project aims to advance the fields of thermal sciences and high-temperature solar thermochemical processing and expand the engineering knowledge base to pave the way to sustainable transportation with the existing infrastructure.Read moreRead less
Understanding the Origin and Development of Extreme and Mega Bushfires. Extreme and megafires result in significant damage to property and infrastructure and are associated with large suppression costs. These events form when separate fires Merge. Their increase occurrence in recent seasons highlights the importance of developing tools and technologies that better predict extreme events to aid fire response and inform strategies for greater resilience. This project combines fire field experiment ....Understanding the Origin and Development of Extreme and Mega Bushfires. Extreme and megafires result in significant damage to property and infrastructure and are associated with large suppression costs. These events form when separate fires Merge. Their increase occurrence in recent seasons highlights the importance of developing tools and technologies that better predict extreme events to aid fire response and inform strategies for greater resilience. This project combines fire field experiments with computer modelling to determine factors driving extreme fire development, and develop new knowledge and models. These enable better prediction of active fires, enhance the knowledge base of fire managers for critical decision making and to improve risk modelling and mitigation planning for fire-prone communities.Read moreRead less
Australian Council Of Prawn Fishers Industry Partnership Agreement - Environment RD&E Program
Funder
Fisheries Research and Development Corporation
Funding Amount
$1,103,000.00
Summary
Australia's commitment to 30% of marine protected area by 2030 in response to global concern about ocean health has focussed scrutiny directly on Australia's commercial net fishing sector. The handling of the Macquarie Island Marine Park announcement followed by the closure of gill net fishing in Qld in 2023 and marine protection proposals in WA have all challenged the commercial fishing sector's reliance on objective, risk based, scientific fisheries management and resource allocation. The fo ....Australia's commitment to 30% of marine protected area by 2030 in response to global concern about ocean health has focussed scrutiny directly on Australia's commercial net fishing sector. The handling of the Macquarie Island Marine Park announcement followed by the closure of gill net fishing in Qld in 2023 and marine protection proposals in WA have all challenged the commercial fishing sector's reliance on objective, risk based, scientific fisheries management and resource allocation. The focus on the commercial fishing sector appears incongruous to Australia’s effectiveness addressing greater impacts on coastal and marine health as identified in the five yearly Statement of Environment reports.
Australia's prawn trawl sector must continue its front-footed environmental stewardship actions to address Net Zero targets and the proposed Nature Positive Act. The ACPF must now build on its transparent community engagement activity with further investment as evidence of the sector's priorities. The ACPF's concerted community engagement activity commenced under FRDC Project 2018/172 and continued under the ACPF's 2021-2026 Community Engagement Plan. The sector must continue to actively reduce trawl impact at the same time as demonstrate its outstanding sustainability credentials as a food supplier.
The project invests within the scope of the FRDC's Environment Program with delivery into Communities, People, Adoption and Industry Programs. The project delivers on the following ACPF RD&E strategic activities against ACPF's Strategic Goals:
Strategic activity: Reduce impacts of fishing on bycatch and the marine environment (and continue to identify environmental risks to natural resource access). ACPF + cross-jurisdiction. (Delivering against Goal 1: Sustainability; Ecological. Goal 2: Stewardship marine resources. Goal 5: Society and Consumers trust, respect and value.)
Strategic activity: Co-investment opportunities in ecosystem health, climate change, carbon footprint. (Delivering against Goal 2: Stewardship of marine and aquatic environments)
Strategic activity: Best practice/Responsible fishing practices communication. (Delivering against Goal 2: Stewardship of marine and aquatic environments)
Strategic activity: Profile RD&E addressing social licence risks. (Delivering against Goal 1: Sustainability; Social. Goal 2: Stewardship marine resources and aquatic environments. Goal 3. A culture that is inclusive and forward thinking. Goal 4. Fair, equitable and secure access. Goal 5: Society and Consumers trust, respect and value.)
The project proposes to collate baseline data, invests in trawl impact RD&E, invests in nature positive initiatives across the environment metrics of the ESG framework and communicates all in a way that engages identified audiences.
The project will contain subprojects which will be identified and scoped in line with the overarching project strategy. Applications for subprojects will be sought using a range of mechanisms - competitive applications, direct or select tender as recommended by the project's steering committee (industry representatives, FRDC, an eNGO and a technical expert). Subprojects seeking national funding must demonstrate Return on Investment to a significant proportion of the sector. Subprojects will be contracted by the ACPF and report deliverables to the FRDC.
Co-investment will be sought from stakeholder partners and/or made by the project into externally managed projects. Objectives: 1. Australian wild prawn sector is Ecologically, Economically and Socially sustainable through pursuing low impact, fuel efficient and financially viable prawn trawl gear technology 2. Australian wild prawn sector plays a critical lead role in the stewardship of our marine resources seeking partnership with stakeholders 3. Through strategic co-investment to address threats on the horizon, the Australian wild prawn sector invests in new innovation that enables fair, equitable and secure access to marine resources 4. Australian society and consumers trust, respect and value the Australian wild prawn sector and its product achieved via its stewardship 5. The Australian wild prawn sector's people are equipped to adapt to climate challenges and the environmental performance standards required of all marine users Read moreRead less
Applying search theory for eradicating invasive species. Invasive species have major economic and environmental impacts in Australia and are a major cause of extinctions worldwide. Monitoring is crucial for the timely control of invasive species in sensitive environments. Early detection increases the probability of eradication and increased accuracy in detection reduces the impact of control programs on non-target species. Efficient monitoring also is crucial in determining whether eradication ....Applying search theory for eradicating invasive species. Invasive species have major economic and environmental impacts in Australia and are a major cause of extinctions worldwide. Monitoring is crucial for the timely control of invasive species in sensitive environments. Early detection increases the probability of eradication and increased accuracy in detection reduces the impact of control programs on non-target species. Efficient monitoring also is crucial in determining whether eradication has succeeded. Search Theory has been applied for over 60 years in a wide range of non-biological monitoring problems, resulting in large increases in target detection rates. Gains of a similar magnitude in invasive species detection would greatly enhance Australia's capacity to manage these threats.Read moreRead less
Storage of non-classical light in a solid. A new scheme for storing and recalling coherent light pulses based on 'slow light' has been demonstrated. The aim of this project is to show how this can best be achieved in a solid to enable practical applications. A range of materials will be investigated. The novel feature of the storage is the maintenace of the coherence information and a noise analysis will be made to determine whether it is experimentally possible to store non-classical light.
Peace Building and Responsive Governance in Asia and the Pacific. War causes not only human suffering; it threatens the health and education of generations of children, sets back regional economies and encourages warlords to become transnational criminals who traffic in drugs, people, money laundering, guns and terror across Australia's region.
Fresh insights will be obtained from the successes and failures of attempts to build peace in failing states that Australia sees as a threat to our sec ....Peace Building and Responsive Governance in Asia and the Pacific. War causes not only human suffering; it threatens the health and education of generations of children, sets back regional economies and encourages warlords to become transnational criminals who traffic in drugs, people, money laundering, guns and terror across Australia's region.
Fresh insights will be obtained from the successes and failures of attempts to build peace in failing states that Australia sees as a threat to our security. These national and regional diagnoses will enhance the quality of Australia's contribution to security and stability in our part of the globe and enhance national capacity to contribute to global peace strategies. Read moreRead less