A Novel Rheological and Chewing and Swallowing model for the Smart Design of Texture Modified Foods for Increased Aged Health. Difficulty in chewing and swallowing mean about 40% of elderly people require Texture Modified (TM) meals. Elders able to eat only very soft food textures have a 2.4 fold higher risk of mortality. However existing methods to assess the level of texture modification are poor; achieving a consistent level of TM meal is difficult; and TM meals have poor sensory properties ( ....A Novel Rheological and Chewing and Swallowing model for the Smart Design of Texture Modified Foods for Increased Aged Health. Difficulty in chewing and swallowing mean about 40% of elderly people require Texture Modified (TM) meals. Elders able to eat only very soft food textures have a 2.4 fold higher risk of mortality. However existing methods to assess the level of texture modification are poor; achieving a consistent level of TM meal is difficult; and TM meals have poor sensory properties (appearance, flavour, aroma). This work will use a novel chewing and swallowing model in conjunction with novel food flavour and property measurements to develop new texture modified foods with increased taste, ease of swallowing and nutritional value.Read moreRead less
Novel Multilevel Modelling Framework to Design Advanced Food Drying Process. In this project, a novel multilevel modelling framework for food drying will be developed by integrating the micro, macro, and dryer scale transport process and considering the dynamic changes in the drying environment under the intermittent application of microwave energy (IMCD). This modelling framework will be the first comprehensive scientific tool for industry for developing next-generation food drying systems, whi ....Novel Multilevel Modelling Framework to Design Advanced Food Drying Process. In this project, a novel multilevel modelling framework for food drying will be developed by integrating the micro, macro, and dryer scale transport process and considering the dynamic changes in the drying environment under the intermittent application of microwave energy (IMCD). This modelling framework will be the first comprehensive scientific tool for industry for developing next-generation food drying systems, which are expected to deliver significant improvement in energy efficiency and product quality and reduction in drying time and food waste. Finally, based on the outcomes of the modelling framework, a smart IMCD drying system will be developed to demonstrate the feasibility of the framework in industry application.Read moreRead less
A Concurrent Multiscale Model for Improved Prediction of Drying Process. This project aims to develop an innovative multiscale model for food drying, which integrates spatial and temporal nonlinear behaviours at different scales. The proposed unifying theory will capture dynamic micro level features and upscale them to macro level features through a concurrent bridging scheme. As cellular elements critically govern the drying process, the fundamental understanding captured through this theory wi ....A Concurrent Multiscale Model for Improved Prediction of Drying Process. This project aims to develop an innovative multiscale model for food drying, which integrates spatial and temporal nonlinear behaviours at different scales. The proposed unifying theory will capture dynamic micro level features and upscale them to macro level features through a concurrent bridging scheme. As cellular elements critically govern the drying process, the fundamental understanding captured through this theory will lead to more accurate prediction of drying kinetics, deformation and quality changes, and hence the development of efficient drying systems. This project will overcome a longstanding research problem and position Australia at the forefront in world drying research to reap substantial economic benefits for Australia.Read moreRead less
Industrial Transformation Research Hubs - Grant ID: IH120100005
Funder
Australian Research Council
Funding Amount
$5,000,000.00
Summary
Dairy Innovation Hub: transformational research to underpin the future of the Australian dairy manufacturing industry. Dairy Innovation Hub: transformational research to underpin the future of the Australian dairy manufacturing industry. The University of Melbourne, The University of Queensland and Dairy Innovation Australia will join in this Research Hub to address significant technical challenges facing the dairy manufacturing industry. The Research Hub will develop transformational processing ....Dairy Innovation Hub: transformational research to underpin the future of the Australian dairy manufacturing industry. Dairy Innovation Hub: transformational research to underpin the future of the Australian dairy manufacturing industry. The University of Melbourne, The University of Queensland and Dairy Innovation Australia will join in this Research Hub to address significant technical challenges facing the dairy manufacturing industry. The Research Hub will develop transformational processing technologies and innovative products to enhance productivity, growth and sustainability.Read moreRead less
Enzymatic synthesis, microencapsulation and biological evaluation of a new class of omega-3 derived functional food ingredients. Inflammatory mediated diseases such as cardiovascular disease, type-2 diabetes, metabolic syndrome and Alzheimer's disease are major causes of death in Australia. Rates of these diseases are rising over time, partly due to poor diet including low consumption levels of healthy omega-3 fatty acids from fish. This project aims to develop healthy food ingredients from natu ....Enzymatic synthesis, microencapsulation and biological evaluation of a new class of omega-3 derived functional food ingredients. Inflammatory mediated diseases such as cardiovascular disease, type-2 diabetes, metabolic syndrome and Alzheimer's disease are major causes of death in Australia. Rates of these diseases are rising over time, partly due to poor diet including low consumption levels of healthy omega-3 fatty acids from fish. This project aims to develop healthy food ingredients from naturally occurring omega-3 fatty acid derivatives that are more stable to oxidation and more biologically active than fish derived omega-3 fatty acids. The development of these omega-3 derivatives as functional food ingredients could provide an additional strategy for helping to prevent the rapid increase in inflammatory mediated diseases in the Australian population.Read moreRead less
Developing New Multifunctional Layered Particles with Novel Modular Food Processing Systems. The global market for organic foods has a value of approximately $150 billion, indicating the high potential export market. Australia's organic industry is currently valued at $350M, with annual growth of 25%. Alternatives to chemical preservatives in products such as breads are in demand, and Australian essential oils show promise, but new technology is required to value-add products from essential oil ....Developing New Multifunctional Layered Particles with Novel Modular Food Processing Systems. The global market for organic foods has a value of approximately $150 billion, indicating the high potential export market. Australia's organic industry is currently valued at $350M, with annual growth of 25%. Alternatives to chemical preservatives in products such as breads are in demand, and Australian essential oils show promise, but new technology is required to value-add products from essential oil producers. Spray drying will be used with the smart coating of extracts, such as antimicrobial compounds, as natural preservatives that promote the shelf life of foods, benefitting service providers, the wider food industry and consumers. Read moreRead less
Enhancing the Production of Functional Food Powders by Studying Reaction Processes in Spray Dryers. The project is a key component of a technical development program that has the potential to make a very large contribution to the processing of functional foods resulting in products of high value for nutritional use. The total national crop of cereals, pulses, oil seeds, fruit and vegetables is thirty million tonnes/year. Over three million tonnes/year of waste are produced, containing three mi ....Enhancing the Production of Functional Food Powders by Studying Reaction Processes in Spray Dryers. The project is a key component of a technical development program that has the potential to make a very large contribution to the processing of functional foods resulting in products of high value for nutritional use. The total national crop of cereals, pulses, oil seeds, fruit and vegetables is thirty million tonnes/year. Over three million tonnes/year of waste are produced, containing three million kilogrammes of bioactive compounds, valued at a minimum of $1,000/kg, giving an estimated potential value of $3 billion/year. If only 10% of this potential is captured, then the national benefit would be as high as A$300 million/year.Read moreRead less
Ultrasonics as a New Platform Technology in Dairy Processing. We intend to develop the use of ultrasound as an innovative platform technology within the Australian dairy industry. The outcomes will place the industry in a lead position internationally through the development of a range of novel, patentable, heat stable dairy ingredients that can command a premium price in a global market. This project will also lead to increased energy efficiency, reduced carbon footprints and increased profitab ....Ultrasonics as a New Platform Technology in Dairy Processing. We intend to develop the use of ultrasound as an innovative platform technology within the Australian dairy industry. The outcomes will place the industry in a lead position internationally through the development of a range of novel, patentable, heat stable dairy ingredients that can command a premium price in a global market. This project will also lead to increased energy efficiency, reduced carbon footprints and increased profitability for Australian dairy manufacturing through improved productivity of membrane operations, evaporators and spray driers. In turn, this work will help to secure the future of the wider Australian dairy industry and the rural townships that depend upon this industry.Read moreRead less
Insoluble-fibre enriched beverages. Insoluble-fibre enriched beverages. This project aims to develop healthy new beverages, by studying the effect of chemistry and physical interactions of insoluble dietary fibre with other food ingredients. Insoluble fibre reduces the risk of chronic diseases, including cardiovascular disease, cancer and diabetes. This project will research how insoluble-fibre linked phytochemicals behave in complex matrices and contribute to malodorous flavours; and design adv ....Insoluble-fibre enriched beverages. Insoluble-fibre enriched beverages. This project aims to develop healthy new beverages, by studying the effect of chemistry and physical interactions of insoluble dietary fibre with other food ingredients. Insoluble fibre reduces the risk of chronic diseases, including cardiovascular disease, cancer and diabetes. This project will research how insoluble-fibre linked phytochemicals behave in complex matrices and contribute to malodorous flavours; and design advanced experimental protocols to prevent undesirable sensory characteristics in liquid systems.Read moreRead less
High-value functional ingredients from bean processing waste. Legumes are considered highly nutritious and sustainable food. Accordingly, there is a steady growth in the consumption of legumes worldwide, including in Australia. Due to lengthy soaking and cooking times, consumers prefer ready-to-eat canned legumes. The current processing technologies are energy and water-intensive and generate considerable waste. This project investigates the application of non-thermal technologies to reduce pro ....High-value functional ingredients from bean processing waste. Legumes are considered highly nutritious and sustainable food. Accordingly, there is a steady growth in the consumption of legumes worldwide, including in Australia. Due to lengthy soaking and cooking times, consumers prefer ready-to-eat canned legumes. The current processing technologies are energy and water-intensive and generate considerable waste. This project investigates the application of non-thermal technologies to reduce processing time, water and energy use and enable the recovery of valuable polyphenols and soluble dietary fibres normally lost in the wastewater. This knowledge will lead to sustainable beans processing, delivering improved productivity to Australian manufacturers and quality food to Australian consumers.Read moreRead less