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
Fish LIGHT - Low Impact Gears And Innovative Harvest Technologies
Funder
Fisheries Research and Development Corporation
Funding Amount
$9,050,000.00
Summary
This program of works supports the trial, implementation, and evaluation of innovative and alternative low-impact harvest technologies (fishing gears) within Queensland’s inshore fisheries (East Coast and Gulf of Carpentaria). The program will be developed in a way that supports an evidence-based approach to developing and trialling sustainable alternative commercial fishing gears, and be run in collaboration with relevant Government agencies and fisheries stakeholders.
Through the addi ....This program of works supports the trial, implementation, and evaluation of innovative and alternative low-impact harvest technologies (fishing gears) within Queensland’s inshore fisheries (East Coast and Gulf of Carpentaria). The program will be developed in a way that supports an evidence-based approach to developing and trialling sustainable alternative commercial fishing gears, and be run in collaboration with relevant Government agencies and fisheries stakeholders.
Through the additional support of co-investment of $4.5 million by FRDC (in line with this application and the approved funds listed under project 2023-154), the program will be delivered in two stages across a six-year timeframe (up to a total investment of $9 million).
The fishing methods to be trialled as part of the first stage will range from exploring enhancements of existing low-impact gear types, through to trials of innovative harvest technologies. The alternative low-impact harvest technologies will first be trialled in order to demonstrate their triple bottom line credentials. After this, the second stage will support broader implementation and evaluation of commercial application over a three-year period.
The program of works will also explore additional opportunities to enhance the economic value and social profile of the fishery, to ensure that any new harvest technologies align with global best practice standards, product value adding to enhance profitability margins, and improvements in social acceptability.
Wild caught seafood also allows for a diverse mix of species that appeal to a range of consumers and seafood businesses. It is planned that this work will explore potential opportunities for market expansion. Objectives: 1. Undertake gear trials with clear monitoring and assessment of gear performance against economic, ecological (including SOCI interactions) and social indicators. 2. Evaluate different gear trial pathways to understand the cost benefit trade-offs, timeframes and identify principles for success 3. Identify attitudinal, behavioural, and contextual factors affecting the adoption and perception of the alternative gear, and design and implement interventions to alleviate this. 4. Support developmental fishery implementation and optimisation of gears and business models to ensure long-term sustainability. 5. Understand the market and consumer preferences associated with caught combination of new gears and undertake optimisation of post-harvest processes and business models to support profitability. 6. Develop forums and communication materials to support responsible innovation and knowledge transfer for and across Australian community, and with a focus on commercial fisheries and key rightsholders and stakeholders Read moreRead less
Horizontal convection at ocean-relevant proportions. This project aims to determine the role of buoyancy differences from solar radiation and vertical confinement. Flows created by lateral variation in heat or buoyancy are poorly understood when the horizontal length greatly exceeds the height, precisely the conditions relevant to industry and understanding the role of horizontal convection in Earth's oceans and in turn the delicate current system that maintains Earth's temperate climate. This p ....Horizontal convection at ocean-relevant proportions. This project aims to determine the role of buoyancy differences from solar radiation and vertical confinement. Flows created by lateral variation in heat or buoyancy are poorly understood when the horizontal length greatly exceeds the height, precisely the conditions relevant to industry and understanding the role of horizontal convection in Earth's oceans and in turn the delicate current system that maintains Earth's temperate climate. This project proposes computational and experimental efforts to probe the ultimate regime of heat transport in very shallow horizontal convection, benefiting humankind through improvements to future ocean and climate modelling efforts.Read moreRead less
Engineered interlayers of bio-retardant and nano-reinforcement on polymers. This project will address the important need for a highly effective lightweight coating. Different interlayers of bio-retardants derive from organic compounds and two-dimensional sheet-like nanomaterials are fabricated to enhance the charring, thermal barrier and flammability resistance. Molecular dynamics are adopted to deliver more targeted fabrication to achieve increased efficacy of the engineered interlayers and pro ....Engineered interlayers of bio-retardant and nano-reinforcement on polymers. This project will address the important need for a highly effective lightweight coating. Different interlayers of bio-retardants derive from organic compounds and two-dimensional sheet-like nanomaterials are fabricated to enhance the charring, thermal barrier and flammability resistance. Molecular dynamics are adopted to deliver more targeted fabrication to achieve increased efficacy of the engineered interlayers and provide important insights on the combustibility of polymers undergoing mass diffusivity, thermal diffusion and oxidation process at high temperatures. Expected outcomes of the project are lightweight coated polymers possessing elevated resistance to fire with a significant reduction of toxic gas emissions and smoke releases. Read moreRead less
Gravity Current Driven Smoke Dispersion In a Stratified Ambient. Smoke from bushfires transported by gravity currents, and known to occur nationwide, caused the shutdown of businesses, education and events in Canberra in 2019. Recent scientific investigations have shown that the speed of propagation and concentration of smoke in these three-dimensional gravity currents have a long term ‘memory’ of their initial configuration. In this project, high-fidelity computational and experimental techniq ....Gravity Current Driven Smoke Dispersion In a Stratified Ambient. Smoke from bushfires transported by gravity currents, and known to occur nationwide, caused the shutdown of businesses, education and events in Canberra in 2019. Recent scientific investigations have shown that the speed of propagation and concentration of smoke in these three-dimensional gravity currents have a long term ‘memory’ of their initial configuration. In this project, high-fidelity computational and experimental techniques will be used to elucidate the fundamental mechanisms of gravity current entrainment and propagation. This knowledge will set a strong foundation to improve operational forecasts of smoke transport that will allow government agencies to better respond to the negative impact of these complicated flows.Read moreRead less
Enhancing passive cooling using flexible baffles. The project aims to develop a novel passive strategy using fluid-structure-thermal interactions to enhance passive cooling by natural convection and improve the energy efficiency of engineering systems. Comparing to the existing strategies, the new strategy does not require driving fan or pump and is quiet, reliable, self-adaptive and economical. The Multiphysics embodied in the proposal is at the leading edge of the field. Expected outcomes incl ....Enhancing passive cooling using flexible baffles. The project aims to develop a novel passive strategy using fluid-structure-thermal interactions to enhance passive cooling by natural convection and improve the energy efficiency of engineering systems. Comparing to the existing strategies, the new strategy does not require driving fan or pump and is quiet, reliable, self-adaptive and economical. The Multiphysics embodied in the proposal is at the leading edge of the field. Expected outcomes include advanced understanding of the complex Multiphysics and design rules for enhancing passive cooling by natural convection using flexible baffles. The research is expected to bring direct economic benefit to relevant industry and significant environmental and social benefit to the general public.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
Large Scale Natural Convection Boundary Layers with Non-Boussinesq Effects. This proposal aims to understand and predict heat transfer by turbulent natural convection in two scenarios, firstly at very large environmental scales, such as occur on melting Antarctic ice sheets, and secondly convection involving very large temperature differences such as occur in solar thermal power plants and industrial processes. These natural convection flow regimes are incredibly difficult to investigate directl ....Large Scale Natural Convection Boundary Layers with Non-Boussinesq Effects. This proposal aims to understand and predict heat transfer by turbulent natural convection in two scenarios, firstly at very large environmental scales, such as occur on melting Antarctic ice sheets, and secondly convection involving very large temperature differences such as occur in solar thermal power plants and industrial processes. These natural convection flow regimes are incredibly difficult to investigate directly but by focusing on the fundamental dynamics of the turbulent flows using large scale numerical simulations and innovative experiments, the project is expected to develop better analytical and computational models which will underpin improvements in
global ocean models and improve energy efficiency.Read moreRead less
Pore Engineering of Chromatography Membranes for Bioseparation. Protein separation and purification is an essential unit operation in manufacturing processes of therapeutic proteins. The project aims to advance the practical applications of chromatography membrane, an emerging technology for protein separation and purification, by tailoring membrane pore geometry and surface functionality to achieve enhanced separation performance. The project expects to generate advanced knowledge and technique ....Pore Engineering of Chromatography Membranes for Bioseparation. Protein separation and purification is an essential unit operation in manufacturing processes of therapeutic proteins. The project aims to advance the practical applications of chromatography membrane, an emerging technology for protein separation and purification, by tailoring membrane pore geometry and surface functionality to achieve enhanced separation performance. The project expects to generate advanced knowledge and techniques in the fields of reactive polymer synthesis, functional membrane fabrication and application in bioseparation. The innovative membranes developed in the project are able to improve the production capacity of therapeutic protein manufacturing processes, providing significant economic benefits to Australia.Read moreRead less
Carbon Molecular Sieve Membranes for Organic Solvent Separation. Directly addressing the pressing challenge of organic solvent separation faced by numerous industries, the project aims to develop molecular sieve membranes with outstanding selectivity and solvent tolerance by constructing zeolite-carbon mixed matrix membrane via incorporating zeolite nanosheets into carbon materials. The project expects to generate advanced knowledge of nanosheet synthesis, membrane fabrication and selective mole ....Carbon Molecular Sieve Membranes for Organic Solvent Separation. Directly addressing the pressing challenge of organic solvent separation faced by numerous industries, the project aims to develop molecular sieve membranes with outstanding selectivity and solvent tolerance by constructing zeolite-carbon mixed matrix membrane via incorporating zeolite nanosheets into carbon materials. The project expects to generate advanced knowledge of nanosheet synthesis, membrane fabrication and selective molecule transport. The membranes developed in the project have great potentials for improving the production capacity and sustainability of Australian industries, e.g., pharmaceutical manufacturing, bioethanol production and petroleum refining, providing significant economic and environmental benefits to Australia.Read moreRead less