An arrangement for brewing and dispensing fermented drinks, primarily beers, by portions using concentrates in a personalized, tailor-made manner that is fit for self-service. The arrangement is fitted with a primary alcohol unit and a secondary alcohol unit, which are suitable for adjusting the alcohol content for each portion and contain an alcohol and water mixture of a fermented liquid, and the controlling part is connected to at least one alcohol adjusting part that is suitable for setting the alcohol content of each portion of beverage. A fermented base concentrate and alcohol originating from the fermented beverage, left in and/or extracted from the base concentrate, is used as raw material, and the alcohol content of the beverage is adjusted by adding further alcohol, and the flavour of each portion of beverage is adjusted as desired.

A system and method to supply nitrogen gas is provided. Ambient air is compressed and stored in a storage receiver and then nitrogen is separated from the compressed air in a nitrogen membrane separation unit. The separated nitrogen is stored in a nitrogen storage tank under pressure and released through a pressure control valve. The system is confined to a small footprint and is useful as a nitrogen source where conventional compressed nitrogen tanks are a safety or space issue. Systems to prepare nitrogen infused beverages are also provided.

A beverage dispensing assembly for preparing and dispensing a beverage has a source of pressurized base liquid containing dissolved CO.sub.2, N.sub.2 or N.sub.2O and a gas pressure of at least 0.5 bar overpressure at 2° C. A beverage unit with a liquid flow path has a liquid inlet at one end in fluid communication with the base liquid in the base liquid source and a beverage outlet at an opposite end. An ingredient container receiving means has an ingredient container installed so the contents are in fluid communication with the liquid flow path for mixing the contents with a base liquid in the liquid flow path. A gas pressure regulation unit has a pressure chamber in the liquid flow path downstream of the communication between the liquid flow path and the ingredient container contents. A gas ingredient inlet is in fluid communication with the pressure chamber.

A beverage dispenser uses-high ratio concentrates to mix on-demand beverages. The high-ratio concentrate is pre-mixed with an alkaline water to allow for improved blending performance in the final beverage. The beverage recipe may be customized by the user to suit personal tastes. Aspects of the beverage dispenser also may include the ability to dispense room temperature, chilled, heated, sparkling, or highly alkaline beverages. Operation of a user interface to receive a beverage order includes the ability to display and employ user interfaces present on both a display on the beverage dispenser and an application on a mobile device. In some aspects, both user interfaces may be used simultaneously to receive user input. Methods of dispensing a beverage using the beverage dispensing systems are also discussed.

A beverage dispensing assembly for preparing and dispensing a beverage the assembly comprising: —source of pressurized base liquid having CO.sub.2, N.sub.2 or N.sub.2O dissolved therein and having a gas pressure of at least 0.5 bar overpressure at 2° C.; —a beverage unit with a liquid flow path having a liquid inlet at one end in fluid communication with the base liquid in the source of base liquid by means of a valve and a beverage outlet at an opposite end; an ingredient container receiving means having an ingredient container installed therein such that when correctly installed, the content of the ingredient container is in fluid communication with the liquid flow path for mixing the content of the ingredient container with a base liquid in the liquid flow path; —a gas pressure regulation unit having a pressure chamber provided in the liquid flow path downstream of the fluid communication between the liquid flow path and the content of the ingredient container; a gas ingredient inlet in fluid communication with the pressure chamber through a valve.

A beverage dispenser uses-high ratio concentrates to mix on-demand beverages. The high-ratio concentrate is pre-mixed with an alkaline water to allow for improved blending performance in the final beverage. The beverage recipe may be customized by the user to suit personal tastes. Aspects of the beverage dispenser also may include the ability to dispense room temperature, chilled, heated, sparkling, or highly alkaline beverages. Operation of a user interface to receive a beverage order includes the ability to display and employ user interfaces present on both a display on the beverage dispenser and an application on a mobile device. In some aspects, both user interfaces may be used simultaneously to receive user input. Methods of dispensing a beverage using the beverage dispensing systems are also discussed.

A method of operating a beverage preparation machine that permits automated preparation of a variety of beverages. A plurality of stations add ingredients to a beverage container and process the contents directly in the container in some embodiments. Parallel preparation of more than one beverage may be performed in some embodiments. A robotic arm moves the beverage container to the stations. The robotic arm may include a weight sensor as part of controlling the addition of ingredients.

A beverage preparation machine permits automated preparation of a variety of beverages. A plurality of stations add ingredients to a beverage container and process the contents directly in the container in some embodiments. Parallel preparation of more than one beverage may be performed in some embodiments. A robotic arm moves the beverage container to the stations. The robotic arm may include a weight sensor as part of controlling the addition of ingredients.

A system and method to supply nitrogen gas is provided. Ambient air is compressed and stored in a storage receiver and then nitrogen is separated from the compressed air in a nitrogen membrane separation unit. The separated nitrogen is stored in a nitrogen storage tank under pressure and released through a pressure control valve. The system is confined to a small footprint and is useful as a nitrogen source where conventional compressed nitrogen tanks are a safety or space issue. Systems to prepare nitrogen infused beverages are also provided.

In certain examples, a beverage dispenser includes a gas system configured to collect ambient air, pressurize the ambient air, and dispense the pressurized ambient air, a valve configured to dispense a base fluid, and a concentrate system configured to dispense a concentrate. A manifold is configured to form a gas-injected mixed beverage comprising the base fluid, the concentrate, and the pressurized ambient air, and a nozzle is configured to apply a back-pressure upstream on the gas-injected mixed beverage and dispense the gas-injected mixed beverage.