A method of making a pressurized packaged liquid beverage including filling a container including a one-way valve with a liquid mixture including a base liquid and a gum; sealing the container; introducing a volume of gas through the one-way valve after sealing the container; and agitating the container. When the container is opened, the liquid mixture increases in volume and separates into a liquid phase and a drinkable foam phase, which may persist for an extended period of time. The base liquid includes milk, coffee, fruit juice, or mixtures thereof.

A device for producing milk foam uses Couette flow and a high shear stress that is accordingly applied to a milk-air mixture between two concentrically arranged cylinders. The cylinders are rotated relatively to another. The high shear stress leads to an emulsion of the milk and the air, which is the basis for a foaming effect, once the emulsion flows out of a gap between the two cylinders and expands. The parameters of the device that mainly influence the foaming effect are the width of the gap and the relative rotation speed of the cylinders.

A dairy beverage comprising milk solids, oil or fat, starch, emulsifier, gellan, cellulose and carrageenan in specific amounts in a closed container is disclosed. The beverage may be foamed by shaking, to provide a pleasant aerated texture/mouthfeel.

A device for generating milk froth, including a pump for conveying milk from a reservoir, an air intake, and at least one back-pressure element, with the back-pressure element being arranged upstream in reference to the pump and the air intake upstream in reference to the back-pressure element. The back-pressure element is embodied as a mixing element, which has in the direction of flow a cross-sectional area that the flow passes through that is not reducing, with the cross-sectional area that the flow passes through at the input side being at least equivalent to the cross-section of the connecting pipeline arranged between the pump and the mixing element. A method for generating milk froth as well as the use of a helical mixer for the generation of milk froth are also provided.

Beverage compositions and methods of preparing the same are provided herein. The beverage compositions can include calcium supplied from a calcium carbonate source including aragonite and a liquid component, such as water, a juice, a milk, and a combination thereof. Calcium components including aragonite particles and at least one additive agent as well as sweetener components including aragonite particles and at least one sweetener are also provided herein.

The present invention relates to a method for preparing a spray-dried dairy powder for forming a milk beverage when dissolved in a beverage medium, the method comprising: forming a dairy composition by: (i) adding a sugar composition to a dairy liquid; or (ii) blending a sugar solution with a dairy liquid, and spray-drying the dairy composition to form a spray-dried dairy powder comprising amorphous sugar, wherein the sugar composition or the sugar solution provides from 10 to 40 wt. % sugar by weight of the spray-dried dairy powder and wherein the sugar is selected from sucrose, lactose and a mixture thereof.

A method of making a pressurized packaged liquid beverage including filling a container including a one-way valve with a liquid mixture including a base liquid and a gum; sealing the container; introducing a volume of gas through the one-way valve after sealing the container; and agitating the container. When the container is opened, the liquid mixture increases in volume and separates into a liquid phase and a drinkable foam phase, which may persist for an extended period of time. The base liquid includes milk, coffee, fruit juice, or mixtures thereof.

The present invention provides a device 1 for producing milk foam, which makes use of Couette flow and a high shear stress that is accordingly applied to a milk-air mixture between two concentrically arranged cylinders 2, 3. The cylinders are rotated relatively to another. The high shear stress leads to an emulsion of the milk and the air, which is the basis for a foaming effect, once the emulsion flows out of a gap 6 between the two cylinders 2, 3 and expands. The parameters of the device 1 that mainly influence the foaming effect are the width of the gap 6 and the relative rotation speed of the cylinders.

A frothing device (1) to froth milk, comprising a boiler (2) for producing vapor; a pump (11) for producing pressurized air; air-vapor delivering means (4) to deliver air and vapor to the milk (18); the boiler (2) and the air pump (11) are connected to a tank (6) for separately feeding vapor and air to the mixing tank (6); the tank is connected to the mentioned air-vapor delivering means (4) to deliver air and vapor to the beverage.

The invention concerns a mixing device (1) having: a whipper housing (2), a rotor (3) and a back wall (4), the whipper housing and the back wall forming a whipper chamber in which is lodged the rotor, the whipper housing having a beverage inlet (11) and a beverage outlet (7), a drive shaft (41) for driving the rotor, said drive shaft being supported by the back wall, the rotor presenting a radial back surface (33) facing the whipper housing back wall (4) and a radial front surface (32) opposed to the radial back surface the whipper housing having a front wall (21), said front wall facing at least a part of the radial front surface (32) of the rotor, and wherein the whipper housing front wall (21) presents bumps (5) elevating from the surface (211) of the front wall, the upper surface (51) of each bump being flat and the edges (52) of said upper surface being sharp.