The invention comprises an apparatus and/or a method of use thereof for dispensing whipped cream, comprising: a profi including a pressure containment housing, a first receiving port integrated into the pressure containment housing, a dispensing port integrated into the pressure containment housing, and at least a first pressure cartridge containing at least a liquid form of nitrous oxide, where the pressure cartridge includes a pressure gas delivery port and where a connection between the receiving port and the pressure gas delivery port form: (1) a section of a pressure containment unit encompassing contents of the pressure containment housing and the pressure cartridge and (2) an open path between the pressure containment housing and the pressure cartridge.

The invention comprises an apparatus and/or a method of use thereof for dispensing whipped cream, comprising: a profi including a pressure containment housing, a first receiving port integrated into the pressure containment housing, a dispensing port integrated into the pressure containment housing, and at least a first pressure cartridge containing at least a liquid form of nitrous oxide, where the pressure cartridge includes a pressure gas delivery port and where a connection between the receiving port and the pressure gas delivery port form: (1) a section of a pressure containment unit encompassing contents of the pressure containment housing and the pressure cartridge and (2) an open path between the pressure containment housing and the pressure cartridge.

A steam wand for coffee machines is provided with a steam dispensing head that is centrally provided with a blind axial conduit that feeds one or more dispensing nozzles that end on the outside of the head and are provided with a tangential sloping direction with respect to the cylindrical conduit.

Formulation and dispenser systems create dairy based toppings for beverages. The dispensers include a container, valve, and an actuator for the valve. The formulations include a liquid product and a propellant. The liquid product includes a certain percentage of milkfat provided, for example, by heavy cream, skim milk, nonfat dry milk, sweeteners, and an emulsifier. The propellant is nitrous oxide or nitrogen.

Formulation and dispenser systems create dairy based toppings for beverages. The dispensers include a container, valve, and an actuator for the valve. The formulations include a liquid product and a propellant. The liquid product includes a certain percentage of milkfat provided, for example, by heavy cream, skim milk, nonfat dry milk, sweeteners, and an emulsifier. The propellant is nitrous oxide or nitrogen.

A foamed product dispensing system, wherein the system includes: a product dispensing machine (B), configured to receive an exchangeable product container (H); a product container (H), configured to cooperate with the product dispensing machine (B), after placement in the machine (B); wherein the product container (H) contains a foamable product (P), preferably a food product, for example cream, wherein the product container (H) has a product processing unit (PPU) including at least one frothing device (15) having a product entrance (15i) for receiving product (P) and a product exit (15u) for discharging product (P), wherein the processing unit (PPU) is connectable to a gas supply for supplying gas to the product (P), wherein the product processing unit (PPU) comprises a processing device (7) arranged downstream of the frothing device (15) and configured for performing a mixing treatment and/or pressure reduction treatment of the product provided with gas.

An aerator mixing rod includes a body having a first and second opposite ends and an outer surface extending between the ends. The body defines a longitudinal axis extending through the ends. The aerator mixing rod also includes teeth extending radially outward from the outer surface, with a first row of teeth and a second row of teeth spaced from the first row along the longitudinal axis. A first passageway is formed between adjacent teeth of the first row, and a second passageway is formed between adjacent teeth of the second row. The first passageway is at least partially misaligned with the second passageway in a direction parallel to the longitudinal axis such that the first passageway and the second passageway form a tortuous path for fluid flowing along the outer surface of the body. The aerator mixing rod is formed from an injection-moldable material by an injection molding process.

Disclosed herein are systems for producing whipped food product. The systems include a compressor having an inlet that receives ambient air and an outlet that provides pressurized ambient air. The systems include a first disconnect coupling coupled to the compressor to receive pressurized ambient air. The systems include a charger. The charger includes a container having a chamber for holding food product, a second disconnect coupling in fluid communication with the chamber and couplable to the first disconnect coupling to provide pressurized ambient air to the chamber from first disconnect coupling, a dispense valve, and a nozzle connected to the dispense valve.

A foaming liquid creamer contains (i) water; (ii) at least one of micellar casein or sodium caseinate; (iii) at least one carbohydrate source; (iv) at least one lipid; (v) at least one buffer salt; (vi) at least one stabilizer; (vii) at least one sweetener; and (viii) at least one emulsifier. The carbohydrate source may include glucose syrup, preferably glucose syrup DE 25-29. The buffer salt may include dipotassium phosphate. The stabilizer may include at least one of carrageenan, carboxymethyl cellulose (CMC), or microcrystalline cellulose (MCC). The lipid may include coconut oil. The at least one emulsifier may include mono- and di-glycerides. The sweetener may include at least one of sucralose or acesulfame. The foaming liquid creamer may also contain a flavor. Another foaming liquid creamer contains (i) water; (ii) at least one of non-fat milk solids or milk fat; and (iii) sugar. Another aspect is an aerosol packaging which includes one of these foaming liquid creamers in a pressurized container, and the aerosol packaging has an actuator nozzle.

A foamed liquid dispensing system includes a container for receiving a liquid to be dispensed connectable to, and removable from, a gas charging unit. The gas charging unit includes a gas compressor, gas pressure sensing means, a control unit and a user interface. The user interface permits a user to input a desired final gas pressure from a minimum value to a maximum value in discrete steps. The control unit instructs the gas compressor to charge the container with gas to the desired final pressure. The gas pressure is continuously monitored and the flow of gas into the container is stopped once the desired final gas pressure has been reached. The user interface displays the gas pressure in the container as the charging cycle proceeds. Once charged with gas and removed from the gas charging unit, the container substantially retains the final desired gas pressure until the liquid is dispensed.