This present invention relates to a natural energy drink solution that enhances breastmilk production and letdown for an easier feeding experience. The drink solution is configured to replace standard energy drinks especially for breastfeeding women. More specifically, the drink solution contains all natural ingredients and includes dissolved carbon dioxide for creating the carbonated energy drink. The drink solution can be packaged in aluminum cans and can be available in a pack of two, four, six and more cans. The drink composition includes fenugreek, almonds, fennel, ginger, nettle, blessed thistle, dissolved CO2, and more. The drink solution is consumed by breastfeeding women before feeding or pumping and offers a safer and healthier alternative to regular highly caffeinated energy drinks.

A method for producing a carbonated yogurt drink, according to one aspect, includes mixing Greek yogurt in the range of 40 to 75 parts; liquid milk in the range of 60 to 25 parts; and fruit puree in the range of 0 to 15 parts to create a yogurt emulsion. The yogurt emulsion is transferred to a pressurizable vessel and dry ice of approximately 0.5% by weight of the yogurt emulsion is added to the vessel. The vessel is sealed and refrigerated for up to seven days during which the CO.sub.2 is absorbed by the yogurt emulsion. The pressurizable vessel may be, for example, an aluminum drink can or other suitable pressurized beverage container.

The invention discloses a method for producing a deodorized goat/sheep milk, which method comprises purifying fresh goat/sheep milk or goat/sheep full cream, wherein the material is subjected to a carbon dioxide treatment during the purification, and the carbon dioxide treatment comprises: introducing carbon dioxide into the material, then refrigerating the material, and removing carbon dioxide. The producing method of the invention is simple, and has a good effect of removing muttony odor of goat/sheep milk. The present invention also discloses a deodorized goat/sheep milk and a deodorized goat/sheep milk product.

The present invention relates to a pressurized spray device containing: a propellant gas, and—a fermented dairy product comprising an emulsifier and a stabilizer and having: • a fat content comprised between 1 and 6%, and • a total protein content of at least 3%, capable of spraying out the fermented dairy product to form a fermented dairy product foam, as well as a method to produce such a device and a method for obtaining a fermented dairy product foam.

The invention comprises a method and apparatus for packaging a dispensable substance, including the steps of: placing a first product component into a container; adding a second product component into the container at an initial pressure of less than 1.31 atm, the container comprising a valve dispensing port; sealing the container; and increasing pressure in the container through a phase change of the second product component to a final pressure in the container, the final pressure at least 0.26 atm greater than the initial pressure. Optionally, the second product component warms in the container at least ten degrees Celsius and undergoes a phase change from a solid or liquid to a gas, which increases pressure in the container and functions as a propellant and/or as an expansion agent.

The present invention provides a novel process for preparing fortified milk compositions from whole mammalian milk. The process of the present invention generally involves converting dried mammalian milk into a fats-enriched fraction, a protein-enriched fraction, and a carbohydrate-enriched fraction. The process comprises treating the dried milk with a fats extracting agent to provide a fats-enriched fraction, and a residual fraction comprising proteins and carbohydrates; separating said fats-enriched fraction from the residual fraction; and removing the fats extracting agent from the separated fats-enriched fraction to produce a dry fraction of oily, fats-enriched material and a fraction enriched in proteins and carbohydrates.

The invention comprises a method for packaging a dispensable substance, such as a food product, whipped cream, a hydrocarbon, or an air freshener, the method comprising the steps of: placing a first product component into a container, the container comprising a valve dispensing port; adding a second product component into the container, the second product component comprising at least one of: (1) a solid form of the second product component and (2) a liquid form of the second product component; sealing the container; and warming, after the step of sealing, the second product component in the container at least ten degrees Celsius, where the step of warming results in a phase change of all of the second product component into a gas phase, at least a portion of the gas phase of the second product component dissolving into the first product component to form the dispensable substance.

A process for producing a fermented liquid food product includes the following steps. A liquid is pasteurized. The liquid is completely or partially cooled. The liquid arrives in a tank. Ferments are added to the liquid in the tank. Before the liquid arrives in the tank, the tank is inerted through flushing a headspace of the tank with an inert gas.

Methods of reducing the viscosity of a liquid flowing through process equipment by introducing into the liquid a quantity of micro- and/or nano-sized bubbles are disclosed. In particular embodiments, the liquid comprises a plurality of very fine charged particles, such as proteins. The bubbles that are introduced into the liquid induce within the liquid/bubble interface a charge that is of the same polarity to that of the charged particles dispersed within the liquid. Liquid products comprising a plurality of micro- and/or nanobubbles are also disclosed.

The present invention relates to a beverage powder comprising porous particles and partially aggregated proteins, the porous particles having an amorphous continuous phase comprising a sweetener, a soluble filler and a optionally a surfactant, wherein the porous particles have a closed porosity of between 10 and 80%. A further aspect of the invention is a process for manufacturing a beverage powder.