Applications of probiotics in yoghurt, soy yoghurt and Cheddar cheese. The main goal of this study is to develop probiotic yoghurt and Cheddar cheese using selected strains of probiotic bacteria and examine their survival and effects on proteolysis and sensory attributes of these products. Research aimed at enrichment of suitable probiotic adjunct starter in these products provides the potential to markedly improve both the health status and quality of products. Optimum conditions for survival o ....Applications of probiotics in yoghurt, soy yoghurt and Cheddar cheese. The main goal of this study is to develop probiotic yoghurt and Cheddar cheese using selected strains of probiotic bacteria and examine their survival and effects on proteolysis and sensory attributes of these products. Research aimed at enrichment of suitable probiotic adjunct starter in these products provides the potential to markedly improve both the health status and quality of products. Optimum conditions for survival of probiotic bacteria and processing conditions that guarantee high levels of probiotic bacteria for health benefits will be known. The results will provide critical information for improving survival of probiotic bacteria and quality of probiotic yoghurt, and Cheddar cheese.Read moreRead less
Stability of bioactive isoflavone aglycones and probiotic bacteria in soy based food during processing and storage. The aims of this study are to ascertain the optimum conditions for bioconversion of inactive isoflavone glucosides to bioactive isoflavone aglycones by bifidobacteria and assess the stability of bioactive aglycones during processing and storage. Studies have shown that dietary phytoestrogen an important role in prevention of cardiovascular disease, osteoporosis and breast and prost ....Stability of bioactive isoflavone aglycones and probiotic bacteria in soy based food during processing and storage. The aims of this study are to ascertain the optimum conditions for bioconversion of inactive isoflavone glucosides to bioactive isoflavone aglycones by bifidobacteria and assess the stability of bioactive aglycones during processing and storage. Studies have shown that dietary phytoestrogen an important role in prevention of cardiovascular disease, osteoporosis and breast and prostate cancer (Nagata et al., 1998). Optimum conditions for production of bioactive isoflavones and processing conditions that guarantee high levels of bioactive isoflavones for health benefits will be known. The results will provide critical information for creating market potential for a range of health based functional foods.Read moreRead less
Developing a smart supervisory control system for pan stage operations in sugar factories. This project aims to develop a prototype smart supervisory control system for pan stage crystallisation operations in raw sugar processing. Intelligent systems technologies will be tailored to provide a standardised approach for pan operations by using key process measurements and combining them with the collective expertise and knowledge of pan operators. This project will lead to a significant advance in ....Developing a smart supervisory control system for pan stage operations in sugar factories. This project aims to develop a prototype smart supervisory control system for pan stage crystallisation operations in raw sugar processing. Intelligent systems technologies will be tailored to provide a standardised approach for pan operations by using key process measurements and combining them with the collective expertise and knowledge of pan operators. This project will lead to a significant advance in the development of intelligent systems techniques for industrial applications and provide a better decision making strategy for pan stage operations with the benefit of reduced costs of sugar manufacture and increased profitability of the Australian sugar industry.Read moreRead less
Ultrasonic Processing of Dairy Ingredients to Control Protein Aggregation and Promote Heat Stability. This project is an emerging collaboration between the University of Melbourne, Food Science Australia and the Dairy Ingredients Group of Australia. We aim to use acoustically generated chemical and physical effects to modify dairy proteins. Transformation of the sulphur-containing proteins by this means should overcome many of the difficulties currently encountered in thermal processing of whole ....Ultrasonic Processing of Dairy Ingredients to Control Protein Aggregation and Promote Heat Stability. This project is an emerging collaboration between the University of Melbourne, Food Science Australia and the Dairy Ingredients Group of Australia. We aim to use acoustically generated chemical and physical effects to modify dairy proteins. Transformation of the sulphur-containing proteins by this means should overcome many of the difficulties currently encountered in thermal processing of whole milk and whey proteins. This work will place the Australian dairy industry in a pre-eminent position for the development of valuable, heat-stable and uniquely functional ingredients based on novel micro/nano structures. Existing world class expertise will be further developed in ultrasonic processing and sonochemistry as frontier technologies.Read moreRead less
Dietary sugarcane-derived polyphenols reduce obesity. The Australian Sugar Industry is a billion dollar industry with refined sugar being calorie-rich but nutrition poor. Consumption of refined sugar is a main contributor to the increasing problem of obesity and metabolic syndrome, costing the Australian health system billions of dollars annually. The principal outcomes of this project will be to show that the polyphenols contained in the waste products from sugar refining can be used to reduce ....Dietary sugarcane-derived polyphenols reduce obesity. The Australian Sugar Industry is a billion dollar industry with refined sugar being calorie-rich but nutrition poor. Consumption of refined sugar is a main contributor to the increasing problem of obesity and metabolic syndrome, costing the Australian health system billions of dollars annually. The principal outcomes of this project will be to show that the polyphenols contained in the waste products from sugar refining can be used to reduce body fat and insulin resistance. These outcomes have enormous implications for human health and disease, and for the sugar industry, thus providing a competitive edge in the world sugar market.Read moreRead less
Innovative zero-energy membrane technologies to reduce water consumption in the dairy industry. The Australian dairy industry not only plays a critical role in our way of life, but processed dairy products contribute to 12% or $3.27b to Australia's export revenue. It has learnt to adapt to changing market demands through innovative membrane technologies, but now energy and water are key issues. This project aims to reduce water consumption in dairy processing by treating waste streams using nove ....Innovative zero-energy membrane technologies to reduce water consumption in the dairy industry. The Australian dairy industry not only plays a critical role in our way of life, but processed dairy products contribute to 12% or $3.27b to Australia's export revenue. It has learnt to adapt to changing market demands through innovative membrane technologies, but now energy and water are key issues. This project aims to reduce water consumption in dairy processing by treating waste streams using novel membrane processes including membrane distillation. The energy is supplied from low grade waste heat, offsetting the need to supply more power to the plant. Reducing the need for water in a zero-energy way will ensure the thriving dairy industry remains cost competitive and an integral part of Australia's culture and economy.Read moreRead less
Towards New Functionality in Dairy Ingredients. The Australian dairy industry plays a significant part in the nation’s economy, with almost $3 billion in export revenue in 2016-2017. Powdered dairy products extend shelf life and ease of transport, with >20% annual growth in premium products, such as milk protein concentrates and infant formula powders. This project aims to support the development of value-added dairy powders by investigating the impact of a novel high pressure processing technol ....Towards New Functionality in Dairy Ingredients. The Australian dairy industry plays a significant part in the nation’s economy, with almost $3 billion in export revenue in 2016-2017. Powdered dairy products extend shelf life and ease of transport, with >20% annual growth in premium products, such as milk protein concentrates and infant formula powders. This project aims to support the development of value-added dairy powders by investigating the impact of a novel high pressure processing technology in enhancing the properties of dairy powders and/or introducing new functionality. Successful outcomes will help expand the offering of high value dairy ingredients and thus increase the global competitiveness of Australian dairy manufacturing.Read moreRead less
Breakthrough technologies for energy-efficient manufacture of dairy powders. The outcomes of this project will form a significant change for the dairy industry in Australia (as represented by Dairy Innovation Australia Ltd.). In particular, the enormous cost-saving and environmental benefits due to a more efficient drying process are attractive for the competitiveness of the industry internationally. The innovation gained is also applicable to food and pharmaceutical industries where spray dryin ....Breakthrough technologies for energy-efficient manufacture of dairy powders. The outcomes of this project will form a significant change for the dairy industry in Australia (as represented by Dairy Innovation Australia Ltd.). In particular, the enormous cost-saving and environmental benefits due to a more efficient drying process are attractive for the competitiveness of the industry internationally. The innovation gained is also applicable to food and pharmaceutical industries where spray drying and fluidised bed drying are integral parts of the manufacturing process. The project will train graduates to be able to make a high-level contribution to these industries.Read moreRead less
Predictive Tools for Effective Spray Drying of Heat Sensitive Dairy Powders. This project is a joint international effort between Monash University, the Institute of Dairy Ingredients Processing at South Dakota State University, and the Dairy Research Institute to address challenges in achieving optimum spray drying conditions for heat sensitive dairy powders, such as milk protein concentrates and whey powders. The new modelling tool aims to help in predicting effective spray drying conditions t ....Predictive Tools for Effective Spray Drying of Heat Sensitive Dairy Powders. This project is a joint international effort between Monash University, the Institute of Dairy Ingredients Processing at South Dakota State University, and the Dairy Research Institute to address challenges in achieving optimum spray drying conditions for heat sensitive dairy powders, such as milk protein concentrates and whey powders. The new modelling tool aims to help in predicting effective spray drying conditions to produce powders with improved solubility, emulsification, and heat stability properties. It is expected that the dairy industry will benefit from the use of this technology to deliver milk powders with improved quality, functionality, and shelf-life.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