Design a Targeted Delivery System for Probiotics. The project aims to improve the effectiveness of probiotics by developing a targeted delivery system to the colon. This interdisciplinary research will generate new knowledge in the field of microbiota and develop new delivery systems for live microorganisms and other active compounds. Expected outcomes include increased understanding of the factors affecting the viability of probiotics during storage and passage through the gastro-intestinal tra ....Design a Targeted Delivery System for Probiotics. The project aims to improve the effectiveness of probiotics by developing a targeted delivery system to the colon. This interdisciplinary research will generate new knowledge in the field of microbiota and develop new delivery systems for live microorganisms and other active compounds. Expected outcomes include increased understanding of the factors affecting the viability of probiotics during storage and passage through the gastro-intestinal tract, the establishment of probiotics into gut flora, and how this incorporation affects the dynamics of gut microbiota. The new technology can be utilised across a wide range of therapeutics that target the colon to promote the well-being of our society through commercialisation by industry partner.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
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
Engineering improved fat encapsulation for food powders. Encapsulation of fats and oils into powders has wide applications in the food industry, with products including creamers, soups, infant formula, and nutraceutical powders. Spray drying of liquid emulsions into powders is an integral part to manufacture high value products by extending their shelf life, nutritional content, and functionality. This project will generate new protocols for the production of high-fat powders, with direct commer ....Engineering improved fat encapsulation for food powders. Encapsulation of fats and oils into powders has wide applications in the food industry, with products including creamers, soups, infant formula, and nutraceutical powders. Spray drying of liquid emulsions into powders is an integral part to manufacture high value products by extending their shelf life, nutritional content, and functionality. This project will generate new protocols for the production of high-fat powders, with direct commercial benefits in improved production efficiency and new product development from recovered ingredients. The knowledge will benefit the manufacturing of food powders in Australia, currently valued around $600M AUD pa, and will potentially expand the variety of product offering for the export market.Read moreRead less
Development of a concentration process for thermally sensitive liquids by the integration of Osmotic Distillation with Freeze Concentration. There is a need for low temperature concentration of thermally sensitive fruit juices and biological liquids with preserved qualities and nutrients. Although Freeze Concentration has been successful up to about 40% solids, it then requires expensive freezing. This project aims to integrate Osmotic Distillation with Freeze Concentration to achieve up to ab ....Development of a concentration process for thermally sensitive liquids by the integration of Osmotic Distillation with Freeze Concentration. There is a need for low temperature concentration of thermally sensitive fruit juices and biological liquids with preserved qualities and nutrients. Although Freeze Concentration has been successful up to about 40% solids, it then requires expensive freezing. This project aims to integrate Osmotic Distillation with Freeze Concentration to achieve up to about 70% solids, for long-term storage under ambient or refrigerated conditions. If successful, the combined process would enable increased export of high quality agricultural products such as grape concentrate for wine making, as well as other liquid foods, beverages and biotechnological products.Read moreRead less
Development of a new micro-encapsulation system using a novel falling-film technology for bio-encapsulation of synbiotic functional dairy products. The inclusion of probiotic (beneficial) bacteria in foods is linked to positive health benefits by suppressing harmful micro-organisms in the gastro-intestinal tract (GIT). Prebiotic ingredients stimulate the growth of these bacteria. Since dairy products containing both probiotic and prebiotic ingredients ("synbiotic") are gaining importance globa ....Development of a new micro-encapsulation system using a novel falling-film technology for bio-encapsulation of synbiotic functional dairy products. The inclusion of probiotic (beneficial) bacteria in foods is linked to positive health benefits by suppressing harmful micro-organisms in the gastro-intestinal tract (GIT). Prebiotic ingredients stimulate the growth of these bacteria. Since dairy products containing both probiotic and prebiotic ingredients ("synbiotic") are gaining importance globally, new protective measures are needed to preserve the activity and viability of these ingredients. This project aims to develop a new micro-encapsulation system to encapsulate bacteria within foods for safe delivery to GIT, to encapsulate enzymes for accelerated cheese ripening, that will significantly enhance the development of a new generation of healthy foods.Read moreRead less
Understanding the structure-function relationship of dietary fibre for engineering novel food products with superior textural properties and nutrition. The focus of this project will be on the merits of dietary fibre from underutilised agricultural by-products as valuable ingredients in food products. This project aims to innovate by developing high quality foods using dietary fibre, hence delivering socioeconomic benefits through a healthier population and increased financial returns to agri-fo ....Understanding the structure-function relationship of dietary fibre for engineering novel food products with superior textural properties and nutrition. The focus of this project will be on the merits of dietary fibre from underutilised agricultural by-products as valuable ingredients in food products. This project aims to innovate by developing high quality foods using dietary fibre, hence delivering socioeconomic benefits through a healthier population and increased financial returns to agri-food processors.Read moreRead less
Improving the scale-up of spray drying for bioactive extracts and fibres. The project will develop new processing techniques that will contribute to better functional foods and bioactive products from fruit and vegetable wastes. The total national crop of fruit and vegetables produces over 3 million tonnes of wastes, where the bioactive materials in the wastes have a potential value of $3 billion/year.