Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453935
Funder
Australian Research Council
Funding Amount
$220,106.00
Summary
Multi-Scale Fermentation Facility for Beverage Research. Australia's largest concentration of beverage fermentation research effort and infrastructure is arguably represented by the University of Adelaide and partners at the Waite Campus, particularly The Australian Wine Research Institute and Provisor Pty Ltd. This cluster seeks to establish an integrated, jointly managed, Multi-Scale Fermentation Facility for Beverage Research. This Facility will address critical shortages in fermentation capa ....Multi-Scale Fermentation Facility for Beverage Research. Australia's largest concentration of beverage fermentation research effort and infrastructure is arguably represented by the University of Adelaide and partners at the Waite Campus, particularly The Australian Wine Research Institute and Provisor Pty Ltd. This cluster seeks to establish an integrated, jointly managed, Multi-Scale Fermentation Facility for Beverage Research. This Facility will address critical shortages in fermentation capacity for research (volumes between 1 ml and 1000 L), offer a vertically integrated system to facilitate step-wise scale-up, allow more accurate modelling of industrial fermentations, enable greater adoption of high-throughput formats and technologies, and achieve enhanced productivity through increased system automation.Read moreRead less
Exploiting novel yeast attributes to produce industrial strains with better fermentative and processing qualities. Food and beverage fermentations are problematic processes, largely due to limitations of the yeast being used. This laboratory has indentified in individual yeast strains highly desirable fermentative characteristics or else the ability to over-produce compounds that benefit product processing. Pursuing the commercial potential of these findings is the specific objective of this pro ....Exploiting novel yeast attributes to produce industrial strains with better fermentative and processing qualities. Food and beverage fermentations are problematic processes, largely due to limitations of the yeast being used. This laboratory has indentified in individual yeast strains highly desirable fermentative characteristics or else the ability to over-produce compounds that benefit product processing. Pursuing the commercial potential of these findings is the specific objective of this proposal. Thus we will extend our collaboration with Coopers Brewery through this new project area with the aims of a) producing optimised, hybrid (non-GMO) strains with combinations of desirable fermentation properties, b) develop novel processing or quality-enhancing treatments while c) generating a high caliber PhD graduate with extensive industry experience.Read moreRead less
Evaluating the applicability of Directed Evolution to the optimisation of industrial yeast strains. The fermentation industries, particularly the wine industry, are of great economic importance to Australia. Wine exports exceed $2 billion per year. Moreover, the industry and those supporting it are major employers in regional Australia. To maintain and grow our share of the international market, Australian wine must remain competitive by increasing production efficiency, maximizing quality and k ....Evaluating the applicability of Directed Evolution to the optimisation of industrial yeast strains. The fermentation industries, particularly the wine industry, are of great economic importance to Australia. Wine exports exceed $2 billion per year. Moreover, the industry and those supporting it are major employers in regional Australia. To maintain and grow our share of the international market, Australian wine must remain competitive by increasing production efficiency, maximizing quality and keeping up with changing consumer preferences, and with minimal environmental impact. As a cornerstone to the winemaking process, the yeast is a vehicle for achieving these needs. This project will develop and evaluate a method for generation of unique yeast which are non-recombinant and which yield superior wine under modern winemaking conditions.Read moreRead less