Process for the protein stabilization of an oenological liquid, comprising a step of preparation of an oenological liquid (3) containing proteins, a step of application of at least one pulsed electric field to the oenological liquid (3), followed by a step of introducing at least one protease into the oenological liquid (3), a hydrolysis step, in which the protease catalyses the breakage of at least one peptide bond between the amino group and the carboxyl group of the proteins present in the oenological liquid (3), thereby forming compounds (7) containing the amino and/or carboxyl groups; such hydrolysis step transforms the oenological liquid (3) into a stabilised oenological liquid (5).

Disclosed herein are a microorganism growth inhibitor including allulose-containing saccharides and a fermented alcoholic beverage comprising the same.

The present invention provides a Saccharomyces uvarum strain capable of low production of higher alcohols and strong degradation of malic acid. After the wine using Saccharomyces uvarum recombinant strain of the present invention is fermented for 5 days, with other fermentation properties unaffected, the content of isobutanol, isoamyl alcohol and phenethyl alcohol in the wine is 28.18 mg/L, 171.76 mg/L and 13.60 mg/L respectively, which is reduced by 20.28%, 14.77% and 11.26% compared with the starting strain, the total content of main higher alcohols (n-propanol, isobutanol, isoamyl alcohol and phenethyl alcohol) is reduced by 12.97%, and the content of malic acid is reduced to 1.13 g/L after fermentation, which greatly shortens the fermentation period, overcomes the influence of lactic acid bacteria fermentation in the ordinary fermentation process and unpleasant flavor caused by higher content of higher alcohols.

The invention concerns a strain of Saccharomyces bayanus subsp. uvarum identified as SERIUS and deposited at the DBVPG with deposit number 36P. The invention further concerns the use of the strain of Saccharomyces bayanus subsp. uvarum identified as SERIUS (DBVPG 36P) as a food inoculate in the production of foods obtained through alcoholic fermentation, and a selection method for yeast strains of the group Saccharomyces adapted to alcoholic fermentation, particularly of grape, consisting of an isolation step for such yeasts from flowers.

A method is described for loading a plant product, preferably must or grape, inside a fermentation tank (12) comprising on its top a loading mouth (14), comprising the steps of: moving a quantity of plant product by putting it inside a container (50) coupled to a guide (22) arranged to guide it up above the loading mouth and, there, and transferring said amount inside the tank. The method ensures easy handling of the product.

A fruit wine aroma enhancement brewing technology using cutinase belongs to the technical field of fruit wine brewing. According to the present disclosure, in order to solve the problem that fruit wine prepared through an existing fruit wine fermentation technology is poor in quality such as aroma and taste, Muscat grapes or apples are adopted as raw materials, and after crushing, separating peel residue, performing peel residue heat treatment and enzyme treatment, mixing the treated peel residue and clear juice, adding auxiliary materials (potassium metabisulfite, pectinase and β-glucosidase), adjusting a sugar degree, inoculating a high-glycerol-field yeast and fermenting with temperature controlled, inoculating an active dry yeast and fermenting with the temperature controlled until fermentation is finished, separating and removing the peel residue, fining, filtering to remove residue, performing stabilizing treatment and performing filtration sterilization, dry grape wine or cider is obtained. The present disclosure can be used in large-scale production of dry fruit wine.

The present invention discloses a process for preparing a sparkling alcoholic beverage resulting from the maceration of hops and/or its derivatives in wine with the addition of wine concentrate, vegetable water and/or water, fruit or vegetable concentrate and/or sugar, in order to reduce the alcohol content of wine, and which is gasified by a second alcoholic fermentation and/or addition of carbon dioxide. Through this process a sparkling alcoholic beverage having between 5 and 15% alcohol, a sugar content between 0.1 and 200 g/L, with a total acidity between 4 and 8 g/L is obtained having hops aroma, flavor and bitterness combined with aromas inherent to wine.

The present disclosure concerns a method for the prevention of defective ageing white wines, wherein, during the preparation of said wine, yeast previously rich in glutathione is introduced into the must at the beginning of, during or after the alcoholic fermentation step, the yeast is a Saccharomyces cerevisiae strain deposited at Institut Pasteur, on 20 Feb. 2019 under accession number CNCM 1-5404. The present disclosure also concerns glutathione-rich Saccharomyces cerevisiae strain deposited at Institut Pasteur, on 20 Feb. 2019 under accession number CNCM 1-5404 as well as processes using the strain in active or inactivated forms for preserving wine. The present disclosure also concerns a glutathione-rich inactivated dry yeast comprising a first dipeptide having the formula C12H25N3O3 with a molecular weight of 259.3458 g/mole; and a second dipeptide having the formula C12H25N5O3 with a molecular weight of 287.3593 g/mole, as well as processes using the inactivated dry yeast for preserving wine.

A fermentation apparatus for preserving the aroma of a fermentable beverage is provided. The fermentation apparatus comprises a flow passage fluidly connectable to the headspace located above a fermentable beverage in a fermentation container. A carbon dioxide scrubber in the flow passage receives a headspace fluid mixture comprising at least carbon dioxide gas and an aromatic fluid originating from the fermenting beverage. When the headspace fluid mixture contacts the carbon dioxide scrubber, the carbon dioxide scrubber retains a modified fluid in the flow passage. The modified fluid has a lower carbon dioxide gas concentration and a higher aromatic fluid concentration than the headspace fluid mixture. The flow passage directs the modified fluid back to the headspace to at least partially retain the aromatic fluid in the fermentable beverage in the fermentation container. A method for preserving the aroma of a fermentable beverage is also provided.

A fermentation apparatus for preserving the aroma of a fermentable beverage is provided. The fermentation apparatus comprises a flow passage fluidly connectable to the headspace located above a fermentable beverage in a fermentation container. A carbon dioxide scrubber in the flow passage receives a headspace fluid mixture comprising at least carbon dioxide gas and an aromatic fluid originating from the fermenting beverage. When the headspace fluid mixture contacts the carbon dioxide scrubber, the carbon dioxide scrubber retains a modified fluid in the flow passage. The modified fluid has a lower carbon dioxide gas concentration and a higher aromatic fluid concentration than the headspace fluid mixture. The flow passage directs the modified fluid back to the headspace to at least partially retain the aromatic fluid in the fermentable beverage in the fermentation container. A method for preserving the aroma of a fermentable beverage is also provided.