An additive dispensing device for dispensing of additives into a pressurised vessel, more particularly a fermentation vessel of a brewing system, is disclosed. The device has a vessel body including a chamber, the chamber having a closed end and an open end. A pressure release means is provided between the chamber and atmosphere. A controllable valve positioned between the closed end and the open end, configured to selectively open and close a flow path between the closed end and the open end.

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 maker includes a water supply module configured to supply water used by the beverage maker, an ingredient supplier that is connected to the water supply module through a first main channel and that includes a plurality of ingredient holders, a fermentation module connected to the ingredient supplier through a second main channel and configured to receive ingredients from the ingredient supplier and water from the water supply module, a beverage dispenser connected to the second main channel, and a sub channel configured to connect the water supply module to the beverage dispenser.

An additive dispensing device for dispensing of additives into a pressurised vessel, more particularly a fermentation vessel of a brewing system, is disclosed. The device has a vessel body including a chamber, the chamber having a closed end and an open end. A pressure release means is provided between the chamber and atmosphere. A controllable valve positioned between the closed end and the open end, configured to selectively open and close a flow path between the closed end and the open end.

An additive dispensing device for dispensing of additives into a pressurised vessel, more particularly a fermentation vessel of a brewing system, is disclosed. The device has a vessel body including a chamber, the chamber having a closed end and an open end. A pressure release means is provided between the chamber and atmosphere. A controllable valve positioned between the closed end and the open end, configured to selectively open and close a flow path between the closed end and the open end.

A device for automatically brewing beer that automates the tasks and operations of the brewing process. The device has an insulated enclosure, a brewing chamber positioned within the enclosure, a flexible brew pouch positioned below and fluidly interconnected to the brewing chamber, wherein the flexible brew pouch can be adjusted between a first volume and at least a second volume that is greater than the first volume, a yeast collection bin positioned below and interconnected to the brew pouch, and at least one source of heat positioned within the enclosure. A temperature sensor is associated with the brewing chamber. A pressure sensor, a near infrared sensor, and a heat exchanger are associated with the brew pouch. A controller operates the heat exchange assembly and the source of heat according to data received from the temperature sensor, the near infrared sensor, and the pressure sensor and a recipe that is uploaded to the controller by a user to automatically brew beer.

A method, and related apparatus, for producing beer from any types of grains includes activating phenomena of controlled hydro-dynamic cavitation during all the steps of the process, from mashing to hopping, and possibly after yeast inoculation. The present method and apparatus provide a number of advantages over traditional techniques, for example, avoiding the pre-crushing of the malts or the grains, thereby increasing the efficiency of saccharification and of starch extraction, and avoiding the boiling at equal efficiency of the hopping. Another advantage is the opportunity of causing the concentration of gluten to fall in the final product simply with controlled hydraulic processes through electromechanics, and of possibly extending fermentation.

A method, and related apparatus, for producing beer from any types of grains includes activating phenomena of controlled hydro-dynamic cavitation during all the steps of the process, from mashing to hopping, and possibly after yeast inoculation. The present method and apparatus provide a number of advantages over traditional techniques, for example, avoiding the pre-crushing of the malts or the grains, thereby increasing the efficiency of saccharification and of starch extraction, and avoiding the boiling at equal efficiency of the hopping. Another advantage is the opportunity of causing the concentration of gluten to fall in the final product simply with controlled hydraulic processes through electromechanics, and of possibly extending fermentation.

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 system for brewing beer in small batches comprises a first heat exchanger and a second heat exchanger. The first heat exchanger delivers heated fluid into the second heat exchanger. A fluid-in line delivers cool fluid into the second heat exchanger. The second heat exchanger is configured to indirectly chill or heat brewing ingredients in a vessel.