Highly functional green materials platform: Starch-ionic liquid-carbon nanotube polymer melt nanocomposites. This project will deliver state of the art scientific advances in green polymers, green plasticisers and tailored nanomaterials for melt processible renewable starch plastics for high-performance applications as electroactive polymers in areas such as biosensors and biodiagnostics.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100033
Funder
Australian Research Council
Funding Amount
$150,000.00
Summary
Green biopolymer nanocomposites facility: supercritical carbon dioxide characterisation and processing for nanomaterials and biopolymers. This facility will house characterisation and processing equipment for developing the next generation biopolymer materials. Novel biopolymers will be developed from natural and renewable resources using improved performance and lower energy supercritical carbon dioxide processing methods.
Minimising Plastic In The Western Rock Lobster Industry (Phase 1 – Scope And Identify)
Funder
Fisheries Research and Development Corporation
Funding Amount
$72,525.00
Summary
It was recently noted (in FISH Magazine Volume 27-1) that:
“Recent studies have estimated that approximately eight million tonnes of plastic end up in the world’s oceans every year. This contributes to the deaths of the marine animals that become entangled. Plastic can also find its way into the stomachs of seabirds, sea mammals, fish and other marine life, affecting the entire food chain. The attributes of plastic that make it so attractive as a material, including its durability, ....It was recently noted (in FISH Magazine Volume 27-1) that:
“Recent studies have estimated that approximately eight million tonnes of plastic end up in the world’s oceans every year. This contributes to the deaths of the marine animals that become entangled. Plastic can also find its way into the stomachs of seabirds, sea mammals, fish and other marine life, affecting the entire food chain. The attributes of plastic that make it so attractive as a material, including its durability, are also the attributes that make it so dangerous and long-lived. Products might break down, but the plastic itself remains in the environment. Greenpeace researchers have found plastics in water and snow samples in areas as remote as Antarctica.
CSIRO research has identified that almost three-quarters of the rubbish on Australia’s coastline is plastic, and that it comes from Australian sources. Research from the Australian Institute of Marine Science has also reported widespread microplastic contamination of waters in north-western Australia. More recently, a study of juvenile Coral Trout from the Great Barrier Reef has identified that tropical fish are ingesting both plastic and non-plastic marine microdebris (particles of less than five millimetres).”
WRL’s vision (as noted in its Strategic Plan 2018-2021) is to be “an iconic global leader in sustainable fisheries management, with one of its strategic objectives to “ensure long term access to the sustainable resource”. WRL continually strives to improve its sustainability practices for the western rock lobster industry, with practices with the ability to transfer to and assist other fisheries being particularly attractive. The research developed through this project will allow greater knowledge and understanding of:
(1) how and where plastic is used within the western rock lobster industry; and (2) viable and environmentally friendly alternatives to the plastic currently in use. This will form the basis for Phase 2 of this project, which will allow for the development, trial and implementation of plastic alternatives to combat and reduce the harm to the marine environment, and ultimately lead to a more sustainable fishery.
Objectives: 1. Identify where and why plastic is used in the western rock lobster industry. 2. Identify viable environmentally friendly plastic alternatives. Read moreRead less
Advanced Materials from Automated Synthesis of Sequence-Defined Polymers. The project aims to develop industrially scalable and environmentally friendly methods for synthesis of sequence-defined multiblock copolymers (polymer chains containing segments of different polymer types) using automated synthesis methods. The materials to be explored will be largely based on renewable biomass-derived monomeric building blocks. Such polymers are able to undergo microphase separation into spatially period ....Advanced Materials from Automated Synthesis of Sequence-Defined Polymers. The project aims to develop industrially scalable and environmentally friendly methods for synthesis of sequence-defined multiblock copolymers (polymer chains containing segments of different polymer types) using automated synthesis methods. The materials to be explored will be largely based on renewable biomass-derived monomeric building blocks. Such polymers are able to undergo microphase separation into spatially periodic compositional patterns, thereby providing access to a vast range of nano-engineered materials. This would enable design and synthesis of new advanced materials, making use of renewable resources and supporting the circular economy, with diverse potential applications ranging from nanomedicine to materials science.Read moreRead less
Development of High Performance Mechanical Sorting of Plastics for Recycling. This research program aims to develop and test a range of high performance, mechanical in-process plastics sorting technologies in conjunction with Australia's lead recycling company. Currently, recycling techniques result in an insufficient purity and quality level, thus limiting the extent of recycling and opportunity for end product applications. Increasing the purity of recycled plastics and economics of recyclin ....Development of High Performance Mechanical Sorting of Plastics for Recycling. This research program aims to develop and test a range of high performance, mechanical in-process plastics sorting technologies in conjunction with Australia's lead recycling company. Currently, recycling techniques result in an insufficient purity and quality level, thus limiting the extent of recycling and opportunity for end product applications. Increasing the purity of recycled plastics and economics of recycling, without compromising throughput levels, will result in an increase in recycling rates and the range of applications of recycled plastics.Read moreRead less
Circular Economy Opportunities For Fisheries And Aquaculture In Australia
Funder
Fisheries Research and Development Corporation
Funding Amount
$158,000.00
Summary
Current resource use challenges sustainability and resilience of industries. Circular value chains allow management of waste losses and maximise resource recovery. A circular economy (CE) mimics the cycles in nature in which there is no waste. Maximum value and utility of products and materials is maintained in CE through a combination of extending product lifetimes, increasing resource use intensity, and end-of-life material recycling. CE includes the idea of regenerative development, i.e. as ....Current resource use challenges sustainability and resilience of industries. Circular value chains allow management of waste losses and maximise resource recovery. A circular economy (CE) mimics the cycles in nature in which there is no waste. Maximum value and utility of products and materials is maintained in CE through a combination of extending product lifetimes, increasing resource use intensity, and end-of-life material recycling. CE includes the idea of regenerative development, i.e. as the earth’s resources cycle as materials through the economy they restore and enhance, rather than deplete, natural capital.
Economic opportunities of circularity are well identified, the World Economic Forum estimates global adoption of CE principles would deliver cost savings of US$1trillion dollars per annum by 2025. A recent UTS:ISF study estimated an Australian CE could be worth AU$2 billion by 2025. However, current knowledge gaps constrain how CE may develop, at what scale it makes sense to close loops, and the strategies, policy mix and incentives needed to promote circularity.
For fisheries and aquaculture, CE adoption addresses waste challenges through the creation of new value chains for fish/shell waste and substitution or recycling plastics and provides co-benefits of resource efficiency, contributions to healthy aquatic eco-systems and creation of added value and new employment. Frameworks to guide ‘CE thinking’ exist e.g. Ellen Macarthur Foundation’s 10R’s and ReSOLVE (see Supplementary Material), but have not been explored, are often omitted in food innovation debates (Pagotto and Halog 2015), and opportunities for implementation within the sector are still emerging (e.g., replacement of fish-feed for abalone with wine production waste or repurposing mussel shells as high-nutrient fertiliser). The need to understand the context, opportunity and benefit of CE innovations and to identify strategic approaches to sectoral circularity at scale are apparent.
Objectives: 1. 1. Develop increased knowledge of how the concept of circular economy relates to fishing and aquaculture, including downstream activities such as post-harvest processing and packaging. 2. 2. Develop increased knowledge of how circular practices being applied in other sectors and industries relate to the fishing and aquaculture sectors and could be adopted by fishing and aquaculture businesses. This includes opportunities for fisheries/aquaculture industries to develop circular linkages with other marine and land based sectors. 3. 3. Identify opportunities that are available and areas for exploration in the short, medium and longer term to progress a circular economy for fisheries and aquaculture. 4. 4. Identify barriers to adopting circularity within the fisheries/aquaculture sector, and known strategies for addressing those barriers. Read moreRead less
Bursary To Attend The 2022 Microplastics And Seafood: Human Health Symposium In The United Kingdom - Erik Poole
Funder
Fisheries Research and Development Corporation
Funding Amount
$5,289.96
Summary
Attend an international microplastics symposium in Edinburgh. Engage with leading scientists on this emerging issue and understand more about the risks involved. Gathering the latest information and research will allow the Australian seafood industry to be better prepared for the risks, including but not limited to; Misinformation, misrepresented science and other related campaigns that may affect the healthy credentials of our industry and its products. Objectives: 1. Attend the ....Attend an international microplastics symposium in Edinburgh. Engage with leading scientists on this emerging issue and understand more about the risks involved. Gathering the latest information and research will allow the Australian seafood industry to be better prepared for the risks, including but not limited to; Misinformation, misrepresented science and other related campaigns that may affect the healthy credentials of our industry and its products. Objectives: 1. Attend the 'Microplastics and Seafood; Human Health Symposium' in the United Kingdom 2. To produce a ‘Critical Review Paper’ addressing microplastics in seafood and impact on human health to provide a potential roadmap for additional research and identify communication strategies for the seafood industry Read moreRead less
Bursary To Attend The 2022 Microplastics And Seafood: Human Health Symposium In The United Kingdom - Nina Wootton
Funder
Fisheries Research and Development Corporation
Funding Amount
$9,400.00
Summary
[Produce a ‘Critical Review Paper’ to provide a potential roadmap for additional research, as well as help identify communication strategies for the seafood industry. This is a development and networking opportunity to create future relationships and collaborations]
This bursary will allow Nina Wootton to attend the microplastics and seafood symposium in Edinburgh, Scotland. The focus of the symposium will be human health aspects of microplastics in seafood. The aim is to produce a cri ....[Produce a ‘Critical Review Paper’ to provide a potential roadmap for additional research, as well as help identify communication strategies for the seafood industry. This is a development and networking opportunity to create future relationships and collaborations]
This bursary will allow Nina Wootton to attend the microplastics and seafood symposium in Edinburgh, Scotland. The focus of the symposium will be human health aspects of microplastics in seafood. The aim is to produce a critical review paper to provide a potential roadmap for additional research, as well as help identify communication strategies for the seafood industry. This is part of an international partnership between FRDC, Seafish (UK) and Seafood Industry Research Fund (USA) that will have 11 scientific experts attending along with industry. The symposium provides Australians with a unique opportunity to engage with experts and industry from around the world.
We will also visit several UK based research groups as part of our travel - we have already engaged with researchers from Plymouth Marine Laboratories, University of Plymouth and Exeter University including Professor Richard Thompson, the first researcher to identify microplastics as an issue. Objectives: 1. Attend the 'Microplastics and Seafood; Human Health Symposium' in the United Kingdom 2. To produce a ‘Critical Review Paper’ addressing microplastics in seafood and impact on human health to provide a potential roadmap for additional research and identify communication strategies for the seafood industry Read moreRead less
Bursary To Attend The 2022 Microplastics And Seafood: Human Health Symposium In The United Kingdom - Bronwyn Gillanders
Funder
Fisheries Research and Development Corporation
Funding Amount
$8,885.00
Summary
[Produce a ‘Critical Review Paper’ to provide a potential roadmap for additional research, as well as help identify communication strategies for the seafood industry. This is a development and networking opportunity to create future relationships and collaborations]
This bursary will allow Professor Gillanders to attend the microplastics and seafood symposium in Edinburgh, Scotland. The focus of the symposium will be human health aspects of microplastics in seafood. The aim is to produ ....[Produce a ‘Critical Review Paper’ to provide a potential roadmap for additional research, as well as help identify communication strategies for the seafood industry. This is a development and networking opportunity to create future relationships and collaborations]
This bursary will allow Professor Gillanders to attend the microplastics and seafood symposium in Edinburgh, Scotland. The focus of the symposium will be human health aspects of microplastics in seafood. The aim is to produce a critical review paper to provide a potential roadmap for additional research, as well as help identify communication strategies for the seafood industry. This is part of an international partnership between FRDC, Seafish (UK) and Seafood Industry Research Fund (USA) that will have 11 scientific experts attending along with industry. The symposium provides Australians with a unique opportunity to engage with experts and industry from around the world.
We will also visit several UK based research groups as part of our travel - we have already engaged with researchers from Plymouth Marine Laboratories, University of Plymouth and Exeter University including Professor Richard Thompson, the first researcher to identify microplastics as an issue. Objectives: 1. Attend the 'Microplastics and Seafood; Human Health Symposium' in the United Kingdom 2. To produce a ‘Critical Review Paper’ addressing microplastics in seafood and impact on human health to provide a potential roadmap for additional research and identify communication strategies for the seafood industry Read moreRead less
Development of Advanced Polymers from Recycled Industrial Plastics for Replacement of Virgin Resins. The main objective of this research program is to develop strategies and techniques to develop advanced polymeric materials obtained from recycled industrial plastics for replacement of virgin resins in industrial packaging. Studies show that only a very small amount of such plastic is reclaimed after industrial use. The research will include a comprehensive study of the life cycle of the indus ....Development of Advanced Polymers from Recycled Industrial Plastics for Replacement of Virgin Resins. The main objective of this research program is to develop strategies and techniques to develop advanced polymeric materials obtained from recycled industrial plastics for replacement of virgin resins in industrial packaging. Studies show that only a very small amount of such plastic is reclaimed after industrial use. The research will include a comprehensive study of the life cycle of the industrial packaging products, development of new blends of the recycled resins, and the application of these blends to manufacture good quality injection moulded and blow moulded products including new plastic pails and containers for industrial use.Read moreRead less