SELECTION OF THE TECHNOLOGICAL PARAMETERS OF FERMENTATION OF HIGH-CONCENTRATION WORT WITH OSMOPHILIC YEAST RACES FOR OBTAINING BIOETHANOL
Анотація
Bioethanol production is a key issue that helps meet the growing demand for energy resources and ensure a sustainable economy. A promising direction is producing bioethanol by using the technology of fermentation of high-concentration wort obtained from the dry matter of grain raw materials. The purpose of this work is researching osmophilic races of distiller’s yeast under the conditions of fermentation of high-concentration wort at increased acidity. Selective breeding of a new strain of the yeast Saccharomyces cerevisiae DO-16 has allowed obtaining ethanol producers able to ferment grain wort with the dry matter concentration 24–34% at pH 6.0–3.0, with alcohol accumulation in the fermented wash up to 17% vol. It has been studied how the pH of wort affects the dynamics of yeast cell synthesis by the distiller’s yeast races Saccharomyces cerevisiae DO-11 and Saccharomyces cerevisiae DO-16. It has been established that at the pH values 2.5, 3.0, 3.5, and 4.0, the concentration of yeast cells in the race Saccharomyces cerevisiae DO-16 was higher by 2.6, 1.7, 1.5, and 1.4 times respectively, as compared with Saccharomyces cerevisiae DO-11. It has been found that culturing industrial yeast of these races at low pH values will provide not only the required sterility of the substrate, but also a high content of yeast cells, which is 250–320 million/cm³. The chemical and technological parameters of the fermented wash obtained by using the yeast races Saccharomyces cerevisiae DO-11 and DO-16 at the wort concentration 20–34% DM have been studied. It has been found that under all research conditions, the yeast of the race Saccharomyces cerevisiae DO-16 synthesised more ethanol than the strain Saccharomyces cerevisiae DO-11 did. The use of a new high-productive strain of Saccharomyces cerevisiae DO-16 will allow fermenting wort with a high ethanol concentration in the wash. It will also reduce the consumption of heat expended on isolating alcohol from the wash and of water expended on cooling, and lessen the amount of post-alcohol stillage.