A system for preparing and dispensing a nitrogen-infused beverage includes a chilled water delivery subsystem, a beverage concentrate subsystem including a beverage concentrate fluidically coupled to a beverage pump, and a nitrogen delivery subsystem. The system includes a nitrogen infuser having a first input fluidically coupled to the nitrogen delivery subsystem and one other input fluidically coupled to the beverage pump. A flavor concentrate subsystem includes a flavor concentrate fluidically coupled to a flavor pump. The system also includes a kegerator tower assembly, and a flavor manifold having a first input fluidically coupled to an output of the nitrogen infuser, one other input to the at least one flavor pump, and an output fluidically coupled to an input of the kegerator tower assembly. A controller controls the beverage pump and the flavor pump. A computer coupled to a camera, and configured for instructing the controller to prepare the beverage.

A system for dispensing individual servings of a beverage, said system comprising: a beverage receptacle holder adapted for retaining a beverage receptacle; a plurality of dry formulation beverage mixtures; selection means for selecting one or more of said beverage mixtures for said beverage; dispensing means for measuring an individual serving quantity of said selected one or more beverage mixtures and for depositing said individual serving quantity into said beverage receptacle; fluid dispensing module for depositing an individual serving quantity of a selected fluid into said beverage receptacle; means for sealing said beverage receptacle; and means for mixing said individual serving quantity of said beverage mixture and said fluid to provide a mixed beverage for dispensing.

An mixing device includes at least one mixing chamber, a memory, a processor coupled to the memory, and a set of instructions stored on the memory and configured to be executed by the processor. The processor is configured to determine a custom mixing recipe comprising a plurality of ingredient types and corresponding amounts for each of the plurality of ingredient types. The processor is further configured to insert the plurality of ingredient types into a first mixing chamber. A first amount of a first ingredient type and a second amount of a second ingredient type are inserted according to the custom mixing recipe. The processor is further configured to mix the plurality of ingredient types in the first mixing chamber. The processor is further configured to dispense a mixture of the plurality of ingredient types as at least one of a vapor, a fine powder, a mist, and a liquid.

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.

Methods and systems are provided for mixing and heat exchange of fluids. In one example, a fluid mixing and heat exchange device includes a hot water tank, a mixing chamber spaced away from the hot water tank and fluidly coupled to a first liquid reservoir, a first chilling module fluidly coupled to the mixing chamber, a coolant tank fluidly coupled to the first chilling module, a radiator fluidly coupled to the coolant tank, and a dispensing manifold fluidly coupled to the mixing chamber and adapted to dispense a mixed and chilled fluid mixture to a plurality of fluid vessels.

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 bottle includes a base, neck that defines an aperture, and a body. The bottle has at least one indent in the body that projects into an interior of the bottle and extends around at least part of a circumference of the body. This at least one indent is configured to agitate a substance contained in the bottle. For example, the bottle may contain a powder, such as protein powder, and the at least one indent helps mix the powder with a liquid. In an example, two indents are used in the bottle.

A cooler includes a body made of an insulating material. The body includes a base and a sidewall upstanding from the base. The sidewall includes an upper rim defining an opening into the body. A lid releasably couples to the upper rim of the sidewall and covers the opening. A battery is coupled to the body. A mixer is coupled to an inner surface of the body and includes a motor electrically coupled to the battery. The mixer is configured to circulate water within the body when the motor is powered by the battery.

A self-propelling container having: a top; a bottom; a plurality of vertical walls extending between the bottom and the top; an inner bag for holding contents to be dispensed; a female coupling configured to receive and establish a friction seal with a male coupling of an external device for inserting or extracting the contents to or from the container after the friction seal is established between the female and male couplings; and at least one independent panel positioned inside the container; a compressible element associated with the at least one independent panel wherein during filling of the inner bag the compressible element is compressed, thus causing the at least one independent panel to exercise pressure onto the inner bag, and thus, helping to empty the inner bag.