A system and method for providing a consumable liquid infused with gas from a liquid processor. The liquid processor may comprise a gas input port configured to receive the compressed gas. The liquid processor may further comprise a liquid input port configured to receive a consumable liquid. The liquid processor may further comprise a venturi injector configured to combine the compressed gas with the consumable liquid. The liquid processor may further comprise a static inline mixer including a plurality of mixing elements and configured to mix the combined consumable liquid with the compressed gas to form the consumable liquid infused with a compressed gas. The liquid processor may further comprise an output port configured to provide the consumable liquid infused with a compressed gas.

A gas infuser includes a mixing chamber and a liquid injector. Gas is supplied into the mixing chamber and liquid flows through openings of the injector to mix with the gas in the mixing chamber and form a gas-infused liquid.

A carbonator (100) for producing carbonated beverage comprising: - a first connector (11) for a gas-outlet (105) of a C02-container (104) and with a C02-valve (12), operable between a closed state and an open state in which C02-gas may be introduced from a gas-outlet (105) of a C02-container (104) into the C02-valve, and; - a second connector (32) for a mouth (108) of a beverage container (107) and with a dissolver nozzle (31) for introducing C02-gas into the beverage container (107), connected to the C02-valve (12) and; - a venting valve (40) connected to the second connector (32) and operable between a closed state and an open state in which excess C02-gas may be led out from the beverage container (107) through the venting valve (40) and; - an operating mechanism (80) configured to operate the C02-valve (12) and the venting valve (40) between open and closed states, and - a manipulator (103), coupled to the operating mechanism (80), for allowing a person to operate the operating mechanism (80 between: - a start mode (I) in which the venting valve (40) is open and the (102-valve (12) is closed, and; - an end mode (III) in which the C02-valve (12) is open and the venting valve (40) is closed, whereby; - the operating mechanism (80) is configured to be set in an intermediate mode (II), between the first mode (I) and the second mode (III), in which both the venting valve (40) and the C02-valve (12) are closed.

A beverage dispensing device and methods for dispensing beverages are provided. In one embodiment, the beverage dispensing device includes a housing, a carbonation assembly, a carriage assembly, and one or more flavorant containers. The beverage dispensing device can also include a controller with a UI to allow a user to customize aspects of a beverage. These customizable aspects can include fluid volume, carbonation level, flavorant type, and/or flavorant amount. Based on the customized aspects of the beverage, the beverage dispensing device can dispense an amount of carbonated or uncarbonated water, and can dispense a type and amount of flavorant. Illustrative embodiments of flavorant containers are also provided.

A carbon dioxide regulator assembly for use in carbonating home brewed beer includes a first pressure gauge that includes a first gauge face. The first gauge face includes a first region having a first indicia indicating a carbonation pressure range of a first type of beer at a predefined temperature, a second region having a second indicia indicating a carbonation pressure range of a second type of beer at the predefined temperature, a third region having a third indicia indicating a carbonation pressure range of a third type of beer at the predefined temperature, and a fourth region having a fourth indicia indicating a carbonation pressure range of an over-carbonation condition at the predefined temperature. The first indicia, the second indicia, the third indicia, and the fourth indicia are each non-alpha-numeric.

A system is provided having a seal cap assembly that allows for the dissolution of sparingly soluble gases into a base liquid contained with a valveless container having only a single opening closed by a twist cap. The seal cap assembly is placed over the opening to create a sealed chamber around the opening. Sparingly soluble gas is then added to chilled based liquid between the twist cap and the partially closed opening. After agitating the base liquid and gas, the twist cap is fully closed about the opening of the container to seal the opening. The final beverage product includes the valveless container fully sealed by the twist cap and containing a beverage aerated with at least one sparingly soluble gas.

A drink dispenser with detachable fizz infuser including drink bottle, characterized by and comprising a base, a main body, a main body support, a top cap, an exiting gas driving device, a gas exiting device, a gas transfer device, a gas inlet device, and a CO.sub.2 cylinder. The compartment for the CO.sub.2 cylinder in the said main body has an inlet and an outlet as well as a side cap that is connected to the main body and pin-jointed with the inlet and the outlet. With this structure, the gas exiting device can be activated simply by pressing the exiting gas driving device. Gas flows from the CO.sub.2 cylinder, enters the gas transfer device and the gas inlet device, and ends up in the drink bottle. The operation is simple and easy. The configuration of the safety device eliminates potential safety hazards and ensures safety by preventing the drink bottles from being over-pressurized. Provision of the side cap facilitates convenient replacement of the CO.sub.2 cylinder.

A batch gasification assembly comprises a pressure vessel having an open end and being configured to contain a beverage to be carbonated and a flexible seal that covers the open end of the pressure vessel. A closure mechanism for the pressure vessel comprises a retainer configured to receive and retain the open end of the pressure vessel, a top cap, and an over-center clamping mechanism that is configured to clamp the top cap onto the open end of the pressure vessel so that the flexible seal member is sandwiched between the top cap and the open end of the pressure vessel.

A pressurized beverage container comprising a receptacle with an internal area, an opening and a lid covering said opening, in which said lid comprises a releasable section which is manually movable from a sealed position in which it forms a functional covering part of said lid, to an open position in which it is displaced from a remainder of said lid such that an aperture is formed in said lid, in which said lid comprises a tail part, in which said tail position is movably associated with said releasable section such that during at least part of said manual movement of said releasable section from said sealed position to said open position said tail part travels inwardly into said internal area, and in which said tail part comprises a function associated with immersion in a beverage.

A valve for dispensing a liquid includes a housing, an internal liquid passage extending through the housing, a valve seat, a valve member movable between a closed position engaging the valve seat and an open position disengaging the valve seat, and a control member controlling movement of the valve member, which is movable between a first position in which it engages the valve member in its closed position, a second position in which the valve member is in its open position but still engaging the control member and a third position in which the valve member is in its open position and out of engagement with the control member. At least one air passage connects the outside of the valve with the internal liquid passage. The at least one air passage is closed in the first and second positions of the control member and is opened in the third position.