Systems, methods, and apparatuses to optimize all stages of sparkling wine production using the ‘Champagne’ method. For instance, there is a specially configured apparatus utilized for a method for producing sparkling wine within the wine bottle through a secondary fermentation. The apparatus is attached to the wine bottle to seal in pressure. Specifically, a neck collar of the apparatus is positioned upon a neck section and a sealing cap is pressed onto a mouth opening wine bottle above the neck collar and coupled to the neck collar of the apparatus. A tensioner of the apparatus induces a clamping force between the neck collar and the sealing cap to seal the pressure generated from fermentation. A pressure indicator measures and displays pressure which is retained and limited to a maximum pressure within the bottle via a Pressure Reduction Valve (PRV) of the apparatus. Sediment from fermentation is removed without freezing via a riddling operations and evacuation of sediment from an inverted bottle through a ball valve configured within the apparatus. Other related embodiments are disclosed.

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.

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.

A method of enhancing the aroma of a wine or beverage conducts flavorful volatiles from a separately occurring fermentation process as driven by the expressed carbon dioxide of the fermentation process. As well as capturing flavorful volatiles that would otherwise be lost, the process recycles carbon dioxide reducing the released carbon dioxide for a given quantity of produced sparkling beverage.

A method of enhancing the aroma of a wine or beverage conducts flavorful volatiles from a separately occurring fermentation process as driven by the expressed carbon dioxide of the fermentation process. As well as capturing flavorful volatiles that would otherwise be lost, the process recycles carbon dioxide reducing the released carbon dioxide for a given quantity of produced sparkling beverage.

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 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 invention relates to a system for the propagation of yeast and adaptation to ethanol in a sustained manner using a bioreactor (1) which is programmed automatically and in which the propagation and adaptation to ethanol, pH and temperature is carried out, for a secondary fermentation in the tirage of Cava, Champagne and sparkling wines in general. The bioreactor (1) includes a motor (6) with stirring blades, and a temperature-control system comprising a sleeve and an electrical resistor, said bioreactor (1) being associated with a mixing tank (2) which houses the liquor. In addition, a programmed pump (4) is provided between the bioreactor (1) and the mixing tank (2), as well as a programmable automaton with a control panel (5) for automating the process.

The invention relates to a system for the propagation of yeast and adaptation to ethanol in a sustained manner using a bioreactor (1) which is programmed automatically and in which the propagation and adaptation to ethanol, pH and temperature is carried out, for a secondary fermentation in the tirage of Cava, Champagne and sparkling wines in general. The bioreactor (1) includes a motor (6) with stirring blades, and a temperature-control system comprising a sleeve and an electrical resistor, said bioreactor (1) being associated with a mixing tank (2) which houses the liquor. In addition, a programmed pump (4) is provided between the bioreactor (1) and the mixing tank (2), as well as a programmable automaton with a control panel (5) for automating the process.

A carbon dioxide and nitrogen infused wine product includes wine infused with both carbon dioxide and nitrogen. A ratio of carbon dioxide to nitrogen in said wine can be in a range of 80%CO.sub.2/20%N.sub.2-60%CO.sub.2/40%N.sub.2.