The present invention is directed to a filter arrangement with a false bottom for a beer-brewing system, with the false bottom being movable for extracting wort from grain by gently squeezing a grain bed in a generally widely distributed application of the squeezing force to mitigate a likelihood of overly compressing grains in the grain bed.

A beer making system may modify a beer ingredient/process recipe to adjust sensory characteristics of a desired beer. With a given ingredient list and starting recipe, a performance model of a brewing system may be used to generate an updated recipe when given a set of desired sensory characteristics of a desired beer. A user interface may permit a user to adjust characteristics such as thin/thick mouthfeel, dryness/maltiness, hops bitterness, hops flavor, hops aroma, and other characteristics. An updated recipe may change mashing schedules, boiling schedules, or other programmatically controlled aspects of a brewing system. The performance model may include heuristics as well as performance metrics derived from observing previous brewing sessions on one or multiple devices.

A beer making system may modify a beer ingredient/process recipe to adjust sensory characteristics of a desired beer. With a given ingredient list and starting recipe, a performance model of a brewing system may be used to generate an updated recipe when given a set of desired sensory characteristics of a desired beer. A user interface may permit a user to adjust characteristics such as thin/thick mouthfeel, dryness/maltiness, hops bitterness, hops flavor, hops aroma, and other characteristics. An updated recipe may change mashing schedules, boiling schedules, or other programmatically controlled aspects of a brewing system. The performance model may include heuristics as well as performance metrics derived from observing previous brewing sessions on one or multiple devices.

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 mixer (I) comprising a mixing container (2) having an internal volume, capable of rotation about a rotation axis (4), the mixer (I) being characterized in that it also comprises at least one ultrasound source (31, 32, 33, 34) capable of exposing at least one portion of said internal volume to ultrasound. The mixer preferably also has a heating system (II) and/or a grid (12) separating a portion of the internal volume of the mixing container (2). The mixer is usable in particular in the brewing of beer.

A beer making system may use direct steam injection during wort manufacturing. Steam may be added directly to the wort, and may be part of a recirculating mash system. The steam may be the primary mechanism for adding heat to the system, and may eliminate many problems that often occur when using conventional heating systems. A water reservoir may feed a stream generator, which may inject steam into wort during mashing or boiling steps. A controller may monitor temperature and other parameters, and may calculate the dilution of wort based on the water added through the steam injection and allow a brewing system to compensate for said dilution and still produce desired results

A beer making system may use direct steam injection during wort manufacturing. Steam may be added directly to the wort, and may be part of a recirculating mash system. The steam may be the primary mechanism for adding heat to the system, and may eliminate many problems that often occur when using conventional heating systems. A water reservoir may feed a stream generator, which may inject steam into wort during mashing or boiling steps. A controller may monitor temperature and other parameters, and may calculate the dilution of wort based on the water added through the steam injection and allow a brewing system to compensate for said dilution and still produce desired results

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 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.