A method for producing a beer or a beer-like beverage with a pure and mild hop aroma having a slight raw hop odor, which includes maintaining a hop-mixed liquid in a tank, which liquid contains a hop and a solvent, at a temperature less than the boiling point of the solvent, wherein at least a part of the hop-mixed liquid is withdrawn from the tank, and the liquid is supplied to an empty portion of the tank, again, to circulate the hop-mixed liquid through the tank. Also disclosed is an apparatus for producing the beer or beer-like beverage.

The present invention relates to a method of producing a beer-taste beverage, wherein the method comprises using a mugi material as a material, and adding glucoamylase and -amylase in a fermentation process.

A beverage-making apparatus includes a water supply heater configured to heat water; an ingredient supplier connected to the water supply heater through a water supply channel; a container connected to the ingredient supplier through a first channel; a first valve configured to regulate a flow through the first channel; and a beverage extractor connected to the first channel at a location between the ingredient supplier and the first valve.

The present invention relates to methods for preparing cereal-based beverages. The present invention provides, for example, methods for steeping and germination of cereal grain under continuous aeration. Particularly, the present invention provides methods for heating the germinated cereal grains prior to wet milling of germinated cereal grains and direct transfer of the germinated grain, without drying, to the brewery for further processing. Compared to current methods the methods of the present invention significantly reduce water consumption, energy consumption and transport need.

A method for combined production of beer and a non-fermented beverage from grain material makes use of a by-product in the beer production to produce the non-fermented beverage and thereby improves resource-efficiency. The method comprises processing the grain material into a mash; separating the mash into a fermentable wort and a retentate; processing a retentate material into a slurry, wherein the retentate material comprises at least a portion of the retentate; separating the slurry into a liquid component and a solid component; processing the liquid component into the non-fermented beverage; processing the fermentable wort into the beer; outputting the non-fermented beverage; and outputting the beer.

Provided is a beer-taste beverage in which oxidized soy sauce odor is reduced, a method for producing the beer-taste beverage, and a method for improving aroma of the beer-taste beverage. The beer-taste beverage according to the present invention has an a* value in an L*a*b* color system of 1.0 or more, and an acetate ester content of 2.0 mg/L or more. The method for producing the beer-taste beverage according to the present invention includes producing the beverage so that the a* value in the L*a*b* color system is 1.0 or more and the acetate ester content is 2.0 mg/L or more. In the method for improving the aroma of the beer-taste beverage according to the present invention, the beer-taste beverage is prepared so that the a* value in the L*a*b* color system is 1.0 or more and the acetate ester content is 2.0 mg/L or more.

A method of preparing a wort with an increased level of free amino nitrogen (FAN) comprising: a) preparing a mash from a grist comprising malt and/or adjunct; and b) adding a M4 mettalloprotease obtainable from Actinobacteria; and wherein the amount of free amino nitrogen (FAN) in the wort is increased as compared to a wort produced in the absence of the M4 metalloprotease.

A system and method for generating wort utilizing steam injection heating and stratified flow. The system mixes a fine ground grain with water to form a slurry. The slurry is pumped through a steam injection heater to form a mash. The heated mash enters into a stratified vessel that creates a stratified temperature profile from a first end to a second end. The stratified heating vessel allows the mash to flow from the first end to the second end without internal mixing. After retention within the mash coil, the wort is directed to a mash filtration unit. After filtration, the wort enters into a boil kettle and is heated using a second steam injection heater. The boil kettle includes a spray head that directs brewing liquor onto the wort to reduce foam within the boil kettle. Finally, the wort passes through a scraped surface sieve that removes particles from the heated wort.

A method for producing a beer or a beer-like beverage with a pure and mild hop aroma having a slight raw hop odor, which includes maintaining a hop-mixed liquid in a tank, which liquid contains a hop and a solvent, at a temperature less than the boiling point of the solvent, wherein at least a part of the hop-mixed liquid is withdrawn from the tank, and the liquid is supplied to an empty portion of the tank, again, to circulate the hop-mixed liquid through the tank. Also disclosed is an apparatus for producing the beer or beer-like beverage.

A beer making system may adjust the beer making process based on the age and provenance of hops to achieve a designed flavor profile. Hops may be analyzed and packaged, with the analysis stored for recall by a beer making system. When the hops are used during beer making, compensations may be made to the recipe parameters to compensate for estimated changes in the hops performance. In one use case, hops may be analyzed and sealed into single-use packages, which may be subsequently used with an automated or semi-automated beer making machine. A database lookup may be performed at beer making to adjust a recipe to increase or decrease time, temperature, or other parameters of a beer making process.