The present invention relates to a capsule comprising at least two compartments, including a first compartment and a second compartment; wherein the first compartment comprises 5-30 mL of an aqueous liquid having an ethanol content of 0-10% ABV and comprising 0.1-25wt. % of protein; and wherein the second compartment comprises 5-50 mL of an alcoholic liquid containing 20-99.9 wt. % ethanol, 0-60 wt. % water, and 50-2,000 mg/kg of hop acids acids selected from iso-alpha acids, hydrogenated iso-alpha acids, hulupones and combinations thereof, and wherein ethanol and water together constitute at least 80 wt. % of the alcoholic liquid.

The capsule can suitably be used to prepare a hopped alcoholic beverage with a foam head, similar to ordinary beer. To prepare such a beverage, the contents of the capsule are combined with carbonated water and dispensed into a e.g. a drinking glass.

A beverage pod for a beverage machine is provided. The beverage pod can include a container having an internal space and a container flange defining an opening to the internal space, a plug sealing the opening of the container, and a cap secured to the container flange. A beverage medium can be located within the internal space of the container. The cap can be operable to selectively engage a portion of the plug to release the beverage medium through the plug and the cap.

Flow control assemblies are provided. The flow control assemblies include a cap having a flow control system with an inlet port having an inlet valve and an outlet port having an outlet valve, wherein the flow control system achieves a Dosing Accuracy (DA) of about 100 or less according to the following formula: $\mathrm{DA}=\left[\frac{\left(\mathrm{Po}-\mathrm{Pc}\right)}{\left(\mathrm{Vd}-\mathrm{Ls}\right)}\right]$
where, Po is a pressure to open the outlet valve (mmH.sub.2O), Pc is a pressure to close the outlet valve (mmH.sub.2O), Vd is a diameter of the outlet valve (mm), and Ls is a length of the valve opening (mm).

An beverage mixing device is may comprise a controller in electronic communication with a sensor, the controller configured to: determine a drink type based on receiving sensor data from the sensor, and mix a pre-mixed composition with a carbonated water or a non-carbonated water based on the drink type.

A single-dose capsule for machines for dispensing beverages in the form of an infusion is provided. The capsule has a cup-shaped body adapted to receive a dose of a product in a granular or particle form, or in the form of a concentrated liquid, and a gas-impermeable film restrained to the open top of the cup-shaped body. The cup-shaped body is made of a multilayer material manufactured by way of a co-injection molding process. The multilayer has an inner layer and an outer layer made of a structural material and an intermediate layer made of a barrier material adapted to prevent passage of oxygen from the external environment to the inside of the cup-shaped body. The invention also relates to a packaging method of the single-dose capsules.

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 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.

A system for the preparation of a liquid product comprises a disposable cartridge filled with a single serve portion of a liquid ingredient to be combined with a base liquid for the preparation of a liquid product. Further the system comprises a dispensing apparatus with a pressurized gas source, wherein the apparatus is adapted to bring said pressurized gas source in direct communication with the reservoir of the disposable cartridge so as to allow said liquid ingredient therein to be pressurized by said gas thereby assisting the dispensing thereof from the reservoir via said one or more dispensing passages. The system is adapted to create one or more openings in said portion of the sealing film that covers the reservoir. The dispensing apparatus further comprises a pressurization dome member having a peripheral gas seal adapted to sealingly engage the disposable cartridge around a location where said one or more openings are created in said sealing film and the pressurized gas source is connected to said dome member and is adapted to feed pressurized gas beneath said dome member within the contour of the peripheral gas seal sealingly engaging the disposable cartridge, so as to allow said liquid ingredient in said reservoir to be pressurized by said gas via the one or more openings in said sealing film, thereby assisting the dispensing of the liquid ingredient from the reservoir via said one or more dispensing passages.

A dosing pump for dosing metered amounts of liquid product, includes an inlet adapted to be fluidly connected to a storage container, an output adapted to be connected to a beverage dispensing machine for receiving metered amounts of liquid product, and a dosing chamber arranged for transferring a liquid from the inlet to the output. The dosing chamber is at least partly filled with a liquid different from the liquid product. The different liquid can be a cleaning fluid, or be food compliant. The dosing pump can be included in an exchangeable supply pack filled with the liquid product for connecting to a beverage dispensing machine, and the output can be adapted to be brought into fluid connection with a beverage dispensing machine. When associated with a beverage dispensing machine, the dosing pump can be operated to allow the different fluid to be pumped through the beverage dispensing machine prior to a first dosing cycle of liquid product.

A mixing nozzle (1) for mixing a concentrate and a diluent and dispensing the mixture is disclosed. The mixing nozzle includes: a concentrate conduit including a concentrate inlet port (2) and a concentrate outlet port (3) and a concentrate flowpath (4) therebetween, the conduit defining the longitudinal axis (XX′) of the mixing nozzle; a toroidal chamber (5) around said concentrate conduit having a water inlet conduit (6) tangentially disposed with respect thereto to create a swirling of the water in said chamber, said toroidal chamber presenting multiple openings (7) at the bottom wall of the toroidal chamber to create multiple flows of diluent around the concentrate outlet port (3); an assembly of multiple radially projecting ribs (10) provided downstream to the multiple openings (7) of the toroidal chamber, the ribs being curved at their downstream ends (10a) towards the mixing nozzle longitudinal axis (XX′).