The systems and methods provide a container assembly comprising: a container having a known storage capacity for storing a liquid; an additive dispensing assembly, the additive dispensing assembly dispensing variable, non-zero quantities of one or more additives into the liquid stored in the container; one or more vessels that each contain one of the additives, of the one or more additives, to be dispensed into the liquid; and a gas dispensing assembly, the gas dispensing assembly releasing a gas into the liquid stored in the container, and the gas dispensing assembly including: an onboard gas tank; a valve assembly; and a gas outlet, and the valve assembly controlling flow of gas from the onboard gas tank, through the valve assembly, and to the gas outlet so as to output the gas into the liquid; and wherein the valve assembly, to perform the controlling the flow of gas, is movable between: an open position, in which flow of gas is allowed to flow from the onboard gas tank to the gas outlet; and a closed position in which the flow of gas is prevented to flow from the onboard gas tank to the gas outlet.

A beverage nucleation device includes a housing, a beverage receiving area defined by the housing for receiving a beverage container containing a supercooled beverage, and a support configured to support the beverage container in an upright orientation in the beverage container receiving area. The beverage nucleation device may further include an applicator configured to contact a sidewall of the beverage container on the support, wherein the applicator includes an elastomeric material. An ultrasonic transducer of the beverage nucleation device is configured to generate and apply ultrasonic energy to the beverage container via the applicator so as to cause nucleation of the supercooled beverage.

The disclosure provides compositions comprising water and ultrafine bubbles, and optionally non-gaseous solutes. The disclosure also provides methods of making and using such compositions.

The technology includes a device for mixing a liquid and a powdered substance in a vessel. The device includes a body having a planar surface with a grid that includes a plurality of openings and at least two elongated apertures arranged in a circumferential direction. The openings and the elongated apertures are co-planar, with the at least two elongated apertures having a cross-sectional area that is more than twice as large as a cross-sectional area of the openings of the grid. The mixing device further includes a plurality of connection portions that extend between the grid and the rim to mechanically connect the grid and the rim. The connection portions are arranged so that at least two apertures are defined between the rim and the periphery of the grid.

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 foaming device comprising a fluid inlet, a fluid outlet spaced apart from said fluid inlet and a fluid conduit extending from said fluid inlet to said fluid outlet, the fluid conduit defining a cavity characterised in that said fluid conduit comprises first and second plates at least one of which comprises a plurality of baffles projecting into the cavity of the fluid conduit, and wherein at least one plate is movable with respect to the other to vary the distance between said plates.

A beverage apparatus hand-holdable by a user to be portable, can include a beverage chamber housing that includes a chamber for storing a consumable liquid. The beverage apparatus can include a dispensing assembly that includes a receptacle. The receptacle can retain a vessel. The vessel can include an electronic tag and can contain an additive. The dispensing assembly can be operatively controllable by a controller to output the additive from the vessel into the consumable liquid. The beverage apparatus can include one or more sensors, devices, or assemblies that can be used to detect a volume of liquid in the chamber or a liquid level in the chamber. The beverage apparatus can include an apparatus computer processor portion (ACP) and an apparatus database portion.

Exemplary implementations of the drinking lid may include a stationary portion and a spinning portion. The stationary portion includes a drinking opening. The spinning portion is rotatably coupled to the stationary portion. The spinning portion is configured to be positioned in a position in which the drinking opening is covered such that the drinking lid is spill-resistant. The spinning portion is further configured to be positioned in a different position that leaves the drinking opening uncovered or open.

An integrated infuser/mixer pump system features a liquid inlet configured to receive a liquid drawn from a liquid source, a gas inlet configured to receive an inlet gas from a gas source, a pump and motor combination configured to received the liquid and provide pumped liquid, a gas/liquid mixture chamber configured to receive the pumped liquid and the inlet gas, and mix the liquid and the inlet gas into a gas-infused mixture, and a gas-infused mixture outlet configured to provide the gas-infused mixture; the gas inlet having a gas liquid mixing valve with a mixing orifice that has a mixing orifice size dimensioned to provide the inlet gas to the gas/liquid mixture chamber with an inlet gas volumetric flow rate in order to mix the pumped liquid and the inlet gas with a predetermined mixture ratio that depends on the mixing orifice size.

An apparatus for preparing foam or blended media can include a pitcher with a blending mechanism and a blending motor. The blending motor can be configured to actuate the blending mechanism. The pitcher can be configured to receive ingredients therein and the blending mechanism can be configured to blend the ingredients to produce the foam or the blended media. The apparatus can include a base with a rinsing feature configured to spray a liquid into an interior of the pitcher. The apparatus can include one or more pivot arms coupled to the pitcher and the base. The one or more pivot arms can be configured to actuate rotation of the pitcher.