Disclosed is a process in which a viscous initial product having both a temperature of between 5° C. and 70° C. and a viscosity greater than 100 mPa.Math.s is provided, —by way of a pump provided upstream of at least one aerator, the viscous initial product is transferred as it is to the at least one aerator in which the viscous initial product is mixed with a gas, injected into the aerator, so as to obtain a liquid foam continuously exiting the aerator, and—the liquid foam continuously exiting the at least one aerator is continuously pushed into the inlet of a treatment device which continuously divides and then dries this liquid foam so as to obtain a powdered porous product which has a solids content greater than 90%.

The invention comprises an apparatus and method of manufacture thereof for forming a frothing agent, including the steps of: forming a frozen pellet by at least partially immersing a first material in a liquid, the first material including at least one of: (1) a solid particle comprising at least thirty percent nitrous oxide by mass and (2) a liquid drop comprising at least thirty percent nitrous oxide by mass; sealing the frozen pellet in a container comprising an initial pressure exceeding one hundred pounds per square inch; and heating contents of the container, the step of heating resultant in: (1) a phase change of the nitrous oxide; and (2) formation of the frothing agent.

The invention relates to a system for aerating a liquid food product, wherein the system includes a bubble generator (5) for generating bubbles in a liquid food product flow. The bubble generator (5) includes a wall (23) having gas transmissive pores, which wall separates an air supply space (24) from the liquid food product flow, wherein an air supply (4) is provided for supplying air to the air supply space (24). The air supply (4) includes an air drying device (7) for drying air, preferably dehumidifying air, to be supplied to the air supply space (24) and/or a container (8) containing pre-dried air, said container (8) being arranged for supplying dried air to the air supply space.

A shelf-stable mousse comprising (i) an aerated fat-free composition of a protein whipping agent, water and a sugar syrup, which composition is in admixture with (ii) at least one of a fat-containing substance; wherein the mousse has a water activity of less than 0.75, a hardness of less than 0.8N (measured as the force required to insert a probe to a depth of 7 mm into the mousse), and a loss factor tan δ value of greater than 0.95.

The system for foaming milk comprises a container (2) for milk; an air inlet (3); a pump (4), wherein liquid milk is mixed with the air in order to produce foamed milk; and an outlet (6), wherein foamed milk is supplied, wherein the container is a container for powdered milk, and wherein the system for foaming milk further comprises a tank (8) for water and a premixing chamber (9). In the method for foaming milk, the milk is provided as powdered milk and is premixed with water in order to provide liquid milk which is mixed with the air in order to produce foamed milk. It enables a system and method for foaming milk to be provided which achieves the foaming of the milk with a “gel” effect from dehydrated powdered milk, the durability of which is much greater than liquid milk.

With a method for heating in particular milk or milk foam, in which the milk or the milk/air mixture is conveyed through a passage opening and hot steam is conveyed through at least one steam line transversely into this passage opening. The passage opening and the at least one inlet opening opening transversely into the steam line, the steam pressure in this and the pressure and the pressure in the passage opening with flowing milk or milk/air mixture are so coordinated that the hot steam at the at least one transverse inlet opening condenses in the passage opening directly on contact with the milk or the milk/air mixture. Consequently the additional energy produced by the phase change from steam to condensate water is transmitted directly as heat to the heat in the milk or the milk/air mixture.

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.

A method for producing different types of milk-air emulsions with a milk-air emulsion generating device, comprising: producing the milk-air emulsions in dependence on at least one determined physical material characteristic of the milk-air emulsion.

The present invention relates to a product comprising: —a container (1) having a volume Vc, sealed by a sealing (6), and —a dairy composition (2), having a volume Vd, which is comprised in the sealed container, characterized in that the dairy composition comprises caseinomacropeptide (CMP) and 0.60<Vd/Vc<0.72. The dairy composition is preferably a fermented dairy composition. Preferably the dairy composition or fermented dairy composition comprises CMP at a concentration of at least 0.3%. Further claimed is a fermented dairy composition comprising CMP as well as the use of CMP as a foaming agent in fermented dairy compositions.

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.