Carbonation apparatus is provided for carbonating a mixed input flow of pressurized and refrigerated carbon dioxide and water. A first cartridge is disposed within the carbonation chamber, defining a porous micromesh net in fluid communication with the input flow and a central cavity in fluid communication with the carbonation chamber output port. The micromesh net is configured to break up chains of water molecules passing through the net, to enhance bonding between the water and carbon dioxide molecules within the cartridge. The net also responds to the flow of water and carbon dioxide molecules impacting and passing through the net by generating a passive polarizing field that has a polarizing influence on the water molecules to further enhance bonding. Beads may be provided within the cartridge for capturing and stabilizing carbon dioxide molecules to yet further enhance bonding between the water and the carbon dioxide molecules.

The invention relates to a carbonized water dispensing device (1) provided with a carbonized water conditioning chamber (2), which conditioning chamber (2) is provided downstream of the carbonator (7) and upstream of the carbonized water dispensing outlet (5), for receiving a mixture of carbonized water mixed with unresolved CO2, which conditioning chamber (2) is dimensioned to hold a single serve of carbonized water with a headspace, and which carbonized water conditioning chamber (2) is provided with an outlet valve (17) and a gas outlet (18). According to the invention, the carbonized water dispensing device (1) is configured to, upon receiving a beverage dispensing order, provide the empty carbonized water conditioning chamber (2) with a single serve volume of carbonized water, and hold the single serve of carbonized water prior to dispensing the single serve volume of carbonized water.

A beverage product, and a system and a method for manufacturing the same are provided. The method for manufacturing a beverage product includes: (a) providing a beverage intermediate product including a container and a beverage, wherein the container has an accommodating space which is not occupied by the beverage; (b) filling a beverage foam into the accommodating space; and (c) sealing the container so that the accommodating space is sealed to obtain the beverage product.

An assembly for selectively aerating a beverage. The assembly includes a body, a diverter movable between first, second, and third positions, and an aerator in fluid communication with the diverter, the aerator including a central outlet and aeration outlets. When the diverter is in the first position, the diverter is positioned such that the beverage flows through the body and the central outlet while bypassing the aeration outlets. When the diverter is in the second position, the diverter is positioned such that the beverage flows through the aeration outlets while bypassing the central outlet. When the diverter is in the third position, the diverter is positioned such that the beverage flows through the body, a first portion of the beverage flows through the central outlet while bypassing the aeration outlets, and a second portion of the beverage flows through the aeration outlets while bypassing the central outlet.

The invention provides containers for pressuring an aqueous liquid with a gas to increase the concentration of the gas in the aqueous liquid. The container employs one or more moveable sections to reduce the accessible volume of the container, e.g., allowing gases such as H2 to become supersaturated within an aqueous liquid.

Gas injection apparatuses include a primary gas chamber, a gas reduction chamber, and a fluid dispensing passageway. The primary gas chamber has a first cross sectional size and is fluidly connected to a gas inlet and a gas outlet. The gas reduction chamber has a second cross sectional size and is fluidly connected to the primary gas chamber, the gas inlet, and the gas outlet. The fluid dispensing passageway is fluidly connected to the gas reduction chamber by a gas delivery orifice having a third cross sectional size.

A sparkling water maker capable of automatically controlling gas inflow includes a gas cylinder, a gas cylinder connector mounted on the gas cylinder, a bottle, and a bottle connector mounted on the bottle. A gas guide tube is connected between the gas cylinder connector and the bottle connector. A compressed gas in the gas cylinder is delivered to the bottle through the gas guide tube. The gas guide tube includes a first gas guide tube connected to the gas cylinder connector and a second gas guide tube connected to the bottle connector. A valve is connected between the first gas guide tube and the second gas guide tube. The valve is configured to block a flow passage between the first gas guide tube and the second gas guide tube.

An aerating bottle stopper comprises a stopper component and an aerator component, which is releasably attached to the bottom of the stopper component by at least one break-away connector. During the bottling of the beverage, the aerating bottle stopper is inserted into the neck of the bottle to seal it. In order to open the bottle, the stopper component is removed causing the break-away connector to separate, releasing the aerator component so that it remains in the neck of the bottle. Multiple flow channels pass through the aerator component. When the beverage is poured through the bottle neck, its flow through the flow channels becomes turbulent so as to cause air to mix with the beverage and aerate it.

A platform for onsite creation of consumable liquids is provided. The platform includes a liquid generating machine, a set of cubes, compatible bottles, and a user interface device. The liquid generating machine may include a water storage module, a cube module, a liquid making module and a bottle filling and cleaning module. The platform decentralizes the production of consumable liquids, such as drinking waters, enhances the consumer's experience, significantly increases consumers' choices, all while simplifying the consumption process (buying the water, carrying it, getting rid of/recycling the plastic bottle, etc.). The platform includes customizable liquid generating recipes associated with the cubes that may be provided through a network or local database and a security feature that allows the authorization of users to generate and access controlled liquids.

An aerating pouring device includes a wine stopper unit fittingly and removably insertable into a wine bottle, a spout unit mounted upon and coaxially rotatable relative to the wine stopper unit, and an interlock unit connected between the wine stopper unit and the spout unit. The spout unit is operable to rotate relative to the wine stopper unit through the interengagement of the interlock unit between a wine pouring position, where an upper wine outlet passage and an upper air inlet passage defined in the spout unit are respectively communicated with a lower wine outlet passage and a lower air inlet passage defined in the stopper unit, and a sealing position, where the spout unit closes the lower wine outlet passage and the lower air inlet passage.