A method of producing a dealcoholized beverage is disclosed including the steps of: (A) separating ethanol and an aroma component from an alcohol-containing beverage to obtain a mixture containing the ethanol and the aroma component and a residual liquid which remains after the separation of the ethanol and the aroma component from the alcohol-containing beverage; (B) bringing a resin into contact with the mixture containing the ethanol and the aroma component to cause the resin to adsorb the aroma component; (C) removing the ethanol from the resin having adsorbed the aroma component; (D) recovering the aroma component from the resin from which the ethanol was removed in the step (C); and (E) mixing the residual liquid obtained in the step (A) with the aroma component obtained in the step (D) to obtain a dealcoholized beverage.

A method of producing a dealcoholized beverage is disclosed including the steps of: (A) separating ethanol and an aroma component from an alcohol-containing beverage to obtain a mixture containing the ethanol and the aroma component and a residual liquid which remains after the separation of the ethanol and the aroma component from the alcohol-containing beverage; (B) bringing a resin into contact with the mixture containing the ethanol and the aroma component to cause the resin to adsorb the aroma component; (C) removing the ethanol from the resin having adsorbed the aroma component; (D) recovering the aroma component from the resin from which the ethanol was removed in the step (C); and (E) mixing the residual liquid obtained in the step (A) with the aroma component obtained in the step (D) to obtain a dealcoholized beverage.

Method for the production of a polyphenolic composition from barley malt, including the fundamental steps of: grinding of the malt grains and splitting into two portions, 20% and 80%; mixing each of the two portions with water to obtain an A mixture and a B mixture, the A mixture being prepared with the 20% portion to obtain a mixture of the malt in water at a final concentration between 9.5% and 20%, the B mixture being prepared with the 80% portion to obtain a mixture of the malt in water at a final concentration between 33% and 60%; thermal cycle; separation of the liquid component from the solid component; boiling of the liquid component and the addition of hops; rapid cooling of the wort; storage; in which said thermal cycle consists of a first phase and a second phase, in which the first phase applies to the 20% portion (Mixture A) and the second phase during which Mixture B is added to Mixture A. The relative polyphenolic composition obtained according to this method is characterized by the fact that it can be in liquid, powder, dry, and lyophilized form, its use and relative beverage or beer according to the present method not obtained with fermentation methods.

Method for the production of a polyphenolic composition from barley malt, including the fundamental steps of: grinding of the malt grains and splitting into two portions, 20% and 80%; mixing each of the two portions with water to obtain an A mixture and a B mixture, the A mixture being prepared with the 20% portion to obtain a mixture of the malt in water at a final concentration between 9.5% and 20%, the B mixture being prepared with the 80% portion to obtain a mixture of the malt in water at a final concentration between 33% and 60%; thermal cycle; separation of the liquid component from the solid component; boiling of the liquid component and the addition of hops; rapid cooling of the wort; storage; in which said thermal cycle consists of a first phase and a second phase, in which the first phase applies to the 20% portion (Mixture A) and the second phase during which Mixture B is added to Mixture A. The relative polyphenolic composition obtained according to this method is characterized by the fact that it can be in liquid, powder, dry, and lyophilized form, its use and relative beverage or beer according to the present method not obtained with fermentation methods.

The invention relates to methods of producing an alcohol-reduced fermented beverage, and to a resulting alcohol-reduced fermented beverage. The invention further relates to an use of a fermentative yeast that is not capable of completely converting glucose, maltose and/or maltotriose into ethanol, for the production of an alcohol-reduced fermented beverage.

The invention relates to methods of producing an alcohol-reduced fermented beverage, and to a resulting alcohol-reduced fermented beverage. The invention further relates to an use of a fermentative yeast that is not capable of completely converting glucose, maltose and/or maltotriose into ethanol, for the production of an alcohol-reduced fermented beverage.

The invention relates to a method of preparing a beer having an ethanol content of 0-3.0% ABV, in situ fermentative production of gluconate component selected from gluconic acid, gluconate, glucono delta-lactone and combinations thereof by: (a) subjecting the boiled wort to two successive fermentation steps, starting with a fermentation step that generates the gluconate component, followed by the yeast fermentation; or (b) subjecting a first boiled wort to yeast fermentation to produce the yeast fermented wort; subjecting a second boiled wort to another fermentation step to generate the gluconate component and to produce a second fermented wort; and combining the yeast fermented wort and the second fermented wort. Also disclosed is a beer having an ethanol content of 0-3.0% ABV, and produced by the method.

The invention relates to a method of preparing a beer having an ethanol content of 0-3.0% ABV, in situ fermentative production of gluconate component selected from gluconic acid, gluconate, glucono delta-lactone and combinations thereof by: (a) subjecting the boiled wort to two successive fermentation steps, starting with a fermentation step that generates the gluconate component, followed by the yeast fermentation; or (b) subjecting a first boiled wort to yeast fermentation to produce the yeast fermented wort; subjecting a second boiled wort to another fermentation step to generate the gluconate component and to produce a second fermented wort; and combining the yeast fermented wort and the second fermented wort. Also disclosed is a beer having an ethanol content of 0-3.0% ABV, and produced by the method.

Methods and systems are described that produce a nonalcoholic beer. The method includes heating water within a container, adding selected components to the water including at least one salt or at least one acid, bringing the water to a boil, adding selected hops to create a water brew, cooling the water brew, adding a selected percentage of a high krausening wort to the cooled water brew, allowing the wort to complete a fermentation cycle to produce a base product, diluting the base product by a percentage to thereby produce an ABV to at or below 0.5%, and adding at least one flavoring to the base product to produce the nonalcoholic beer.

Methods and systems are described that produce a nonalcoholic beer. The method includes heating water within a container, adding selected components to the water including at least one salt or at least one acid, bringing the water to a boil, adding selected hops to create a water brew, cooling the water brew, adding a selected percentage of a high krausening wort to the cooled water brew, allowing the wort to complete a fermentation cycle to produce a base product, diluting the base product by a percentage to thereby produce an ABV to at or below 0.5%, and adding at least one flavoring to the base product to produce the nonalcoholic beer.