Provided is a brewing system (10) comprising a brewhouse assembly (12) having a mash tun (14), a kettle (16), a filter (18) and wort chiller (20) arranged in fluid communication for brewing purposes. The brewhouse assembly (12) is configured to operatively produce wort from mash liquor. Wort produced by the brewhouse assembly (12) is generally stored in a transport container (22). The brewing system 10 further includes a plurality of fermentation assemblies (24) each arranged remotely from the brewhouse assembly (12). Each fermentation assembly (24) includes at least one fermenter (26) which is arranged in fluid communication with a plurality of bright beer tanks (28). Each fermenter (26) is operatively suppliable with wort from the transport container (22) and is configured to produce beer from the wort for subsequent storage in a bright beer tank (28). The brewing system (10) also includes a monitoring and control system (30) which comprises a plurality of sensors (32) for sensing brewhouse and fermentation assembly operating characteristics, a plurality of actuators (34) configured to remotely control the brewhouse and fermentation assemblies (12) and (24) to influence these respective operating characteristics, and some manner of remote interface (100) for receiving the sensed operating characteristics and instructing the actuators (34).

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.

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 provides a process for treating a wort composition in a kettle, said method providing a significant energy saving compared to existing wort treatment processes. In particular, the process includes a hot-hold step for the wort, followed by gas sparging at elevated temperatures.

The present invention provides a process for treating a wort composition in a kettle, said method providing a significant energy saving compared to existing wort treatment processes. In particular, the process includes a hot-hold step for the wort, followed by gas sparging at elevated temperatures.

Provided is a method for producing a liquor. The method for producing a liquor may comprise the steps of: preparing whole grains comprising husks or stems; pulverizing the whole grains so as to produce a pulverized grain product; producing a first intermediate product by mixing the pulverized grain product, a solvent, and a first enzyme and performing a primary saccharification process at a first temperature; producing a second intermediate product by adding a second enzyme to the first intermediate product and performing a secondary saccharification process at a high second temperature different from the first temperature; and adding yeast to the second intermediate product and fermenting.

The present invention relates to a beer-taste beverage having a malt ratio in materials of 66.6% by mass or less, a protein content greater than 0.31 g/100 ml, and sugars content of 2.5 g/100 ml or less.

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.

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.

A device, system and method are for treating a suspension, containing plant constituents, in particular separating a liquid or a solid therefrom, in the field of production of food, pharmaceutical and luxury products, and to corresponding uses. The device for continuously or discontinuously treating a suspension, in particular for separating a liquid or liquid phase or a solid or a residual phase from the suspension includes: a receiving unit for receiving the suspension and at least one separating device having a surface having openings. The surface can be brought into contact with the suspension, if the suspension is present in the receiving unit for separation into the liquid phase and the solid phase. During the operation of the device, the surface is arranged such that it is moved or can be moved or can be rotated relative to the suspension, the solid phase and/or the receiving unit.