SELF-FOAMING READY TO DRINK BEVERAGES

Abstract

A container stores a main liquid component that contains a dissolved gas, preferably nitrous oxide, separately from a foam initiator component that is at least one of a powder, a liquid or a concentrate. A dispensing part of the container, such as a dispensing lid, can contain the foam initi-ator component. The foam initiator component is dispersed and dissolved into the main liquid component to form a foaming ready to drink beverage. The foam initiator component comprises a portion of the ingredients of the ready to drink beverage. Combination of the foam initiator component with the main liquid component not only results in foam generation in the contain-er without any mechanical energy input additional to the opening of the container but also forms the ready to drink beverage.

Claims

1. A ready to drink beverage comprising: a foaming initiator component comprising a medium selected from the group consisting of a powder and a liquid; and a main liquid component comprising dissolved gas, the foaming initiator component stored separately from the main liquid component, the beverage formed by addition of the foaming initiator component to the main liquid component.

2. The ready to drink beverage of claim 1, wherein the main liquid component comprises water in which selected from the group consisting of nitrous oxide (N20), carbon dioxide (CO.sub.2) and a combination thereof is dissolved.

3. The ready to drink beverage of claim 1, wherein the foaming initiator component comprises a coffee ingredient selected from the group consisting of a soluble coffee powder and a coffee concentrate.

4. The ready to drink beverage of claim 3, wherein the main liquid component comprises coffee aroma.

5. The ready to drink beverage of claim 1, wherein the foaming initiator component comprises a tea ingredient selected from the group consisting of a soluble tea powder and a tea concentrate.

6. The ready to drink beverage of claim 1, wherein the foaming initiator component comprises a fruit ingredient selected from the group consisting of a fruit powder and a fruit concentrate.

7. The ready to drink beverage of claim 1, wherein the foaming initiator component comprises a cocoa ingredient selected from the group consisting of a cocoa powder and a cocoa concentrate.

8. A foaming ready to drink beverage formed by dispensation of a foaming initiator component from a dispensing part of a container into a main liquid component comprising dissolved gas and stored in the container separately from the foaming initiator component, the foaming initiator component comprising a medium selected from the group consisting of a powder and a liquid.

9. A container comprising: a foaming initiator component comprising a medium selected from the group consisting of a powder and a liquid; and a main liquid component comprising dissolved gas and stored in the container separately from the foaming initiator component, the container configured to dispense the foaming initiator component into the main liquid component upon opening of the container, and dispensation of the foaming initiator component into the main liquid component forms a foaming ready to drink beverage in the container.

10. The container of claim 9, comprising a dispensing part that stores and dispenses the foaming initiator component.

Description

BRIEF DESCRIPTION OF THE FIGURES

[0035] FIGS. 1 and 2 show examples of an embodiment of a container for a self-foaming RTD beverage according to the present disclosure.

DETAILED DESCRIPTION

[0036] All percentages expressed herein are by weight of the total weight of the composition unless expressed otherwise. When reference is made to the pH, values correspond to pH measured at 25 C. with standard equipment. As used in this disclosure and the appended claims, the singular forms a, an and the include plural referents unless the context clearly dictates Moreover, all numerical ranges herein should be understood to include all integer, whole or fractions, within the range.

[0037] As used herein, comprising, including and containing are inclusive or open-ended terms that do not exclude additional, unrecited elements or method steps. However, the beverages provided by the present disclosure may lack any element that is not specifically disclosed herein. Thus, any embodiment defined herein using the term comprising also includes embodiments consisting essentially of and consisting of the disclosed components.

[0038] As shown in FIGS. 1 and 2, the present disclosure relates to self-foaming ready to drink (RTD) beverages formed by a main liquid component 21 and a foam initiator component 22 stored separately within a container 10, such as a bottle made of a thermoplastic polyester, preferably a polyester, such as polyethylene terephthalate (PET) for example. Ready-to-drink beverage means a beverage in liquid form that can be consumed without the further addition of liquid. Main in reference to the main liquid component means that the volume of the main liquid component is greater than the volume of the foam initiator component.

[0039] The self-foaming RTD beverage can be formed in the container 10. The container preferably contains one or two servings of the RTD beverage, although larger containers can be used. The container preferably has a dispensing part 12, such as a lid, that stores the foam initiator component 22, and the foam initiator component 22 comprises a portion of the ingredients of the RTD beverage. The foam initiator component 22 stored by the dispensing part 12 is preferably in the form of a liquid, a powder and/or a concentrate. Another part 11 of the container 10, such as the container body, can store the main liquid component 21. For foam formation, the main liquid component 21 within the container 10 has dissolved nitrous oxide (N.sub.2O), carbon dioxide (CO.sub.2) and/or another appropriate gas. The main liquid component 21 can fill the majority of the interior of the container 10, but the volume of the main liquid component 21 in the container 10 allows sufficient space 23 for foam formation.

[0040] As generally shown in FIG. 2, when the consumer opens the container 10, a thick foaming beverage 24 is formed by opening the container 10, preferably immediately after the opening of the container 10. The opening of the container 10 mixes the foaming initiator component 22, previously stored in the dispensing part 12, with the main liquid component 21 within the container 10. Such dispensing lids are commercially available and are used to add ingredients into a liquid at the time of consumption. Preferably the foaming is initiated without action by the consumer additional to the opening of the container 10. For example, opening of the container 10 can dispense the foam initiator component 22 from the dispensing part 12 into formation.

[0041] Accordingly, the present disclosure provides a solution to make a foamed RTD beverage that comprises (1) a main liquid component that contains a dissolved gas, preferably nitrous oxide, and (2) a foam initiator component that is at least one of a powder, a liquid or a concentrate and is dispersed and dissolved into the main liquid component to form a foaming ready to drink beverage. The foam initiator component can comprise a portion of the ingredients of the ready to drink beverage, and the main liquid component can comprise the remaining ingredients of the ready to drink beverage. The main liquid component comprises a gassed liquid, such as water in which gas such as nitrous oxide (N.sub.2O) is dissolved.

[0042] The gassing can be performed at any stage of the beverage production process. The gas may be injected into the main liquid component in any suitable way, e.g. by sparging the gas into the main liquid component through a nozzle designed to form small bubbles. In a preferred embodiment, the main liquid component is subjected to pressure during and/or after the injection of the gas, e.g. to a pressure between 1 and 400 bar, preferably between 2 and 50 bar. The pressure may be created by conveying the main liquid component through a high pressure pump, and the gas can be injected into the main liquid component before and/or after the high pressure pump. The gas injection may be performed in a way so that the gas is entirely solubilized in the main liquid component, or the gas may be present in the main liquid component as gas bubbles, e.g. with a size of 1 to 10 microns.

[0043] Combination of the foam initiator component with the main liquid component, such as by a storage cap that releases the foam initiator component into the main liquid component, not only results in foam generation without any mechanical energy input (e.g. shaking of bottle or pouring into another container) but also forms the ready to drink beverage. The presence of particles in the foam initiator component, such as particles in a powder or colloidal particles in a liquid or a concentrate, helps the foam formation. For example, the particles can be in a medium that is a powder or a liquid, and the liquid can be a concentrate.

[0044] The foaming initiator component can comprise at least one of coffee solids, tea solids, cocoa solids, or fruit flavored solids. In an embodiment, the foaming initiator component comprises coffee solids in a soluble powder or a liquid, and the liquid is preferably a concentrate. In another embodiment, the foaming initiator component comprises a soluble tea powder or a tea concentrate such as any type of tea powder or concentrate. Non-limiting examples of types of tea include green tea, black tea, white tea, oolong tea, rooibos tea, chai tea, flavored tea, herbal tea, fruit tea, and combinations thereof. Tea refers to brewable tea and optionally other ingredients and combinations thereof. The tea can include the tea of a single tea variety or a mixture of one or more tea varieties. The tea can be caffeinated or decaffeinated.

[0045] In an embodiment, the foaming initiator component can comprise a cocoa component that can be a powder or a liquid, and the liquid is preferably a concentrate. The cocoa component can include one or more natural cocoas, alkalized cocoas, or other cocoa or chocolate based products. In an embodiment, the foaming initiator component can comprise a fruit component that may include one or more fruit juices, fruit powders, fruit extracts, fruit concentrates, fruit flavor crystals, fruit flavored powders, and the like. The fruit or fruit flavor may be apple, orange, pear, peach, strawberry, banana, cherry, pineapple, kiwi, grape, blueberry, raspberry, mango, guava, cranberry, blackberry or combinations thereof.

[0046] In an embodiment, the main liquid component can comprise a dairy component that can include one or more dairy ingredients or dairy substitute ingredients. For example, the dairy ingredients can be milk, milk powder, skim milk, milk proteins and combinations thereof. Examples of suitable dairy proteins are casein, caseinate, casein hydrolysate, whey, whey hydrolysate, whey concentrate, whey isolate, milk protein concentrate, milk protein isolate, and combinations thereof. Furthermore, the dairy protein may be, for example, sweet whey, acid whey, -lactalbumin, -lactoglobulin, bovine serum albumin, acid casein, caseinates, -casein, -casein and/or -casein. Suitable dairy substitute ingredients include soy proteins, rice proteins and combinations thereof, for example.

EXAMPLES

[0047] By way of example and not limitation, the following non-limiting examples are illustrative of various embodiments provided by the present disclosure.

Example 1

[0048] A self-foaming RTD black coffee can be formed in a container with a dispensing lid. The main liquid component can be water in which nitrous oxide gas is dissolved and can include coffee aroma, and the foam initiator component can be and/or can comprise instant coffee powder or concentrate. The foam initiator component can be stored in the dispensing cap, separately from the main liquid component. At the time of consumption, the coffee powder or concentrate is released into the water from the dispensing cap to form the beverage and initiate foaming.

Example 2

[0049] A self-foaming RTD cappuccino-style beverage can be provided. The main liquid component can comprise water, a dairy component such as skim milk and/or caseinates, and coffee aroma. Additionally, other aromas, sweeteners and/or flavorings can be included in the main liquid component as desired. The main liquid component is gassed with nitrous oxide (N2O) gas, another gas or a mixture of gasses to dissolve a sufficient amount of gas for an appropriate foam level. The coffee is stored in the dispensing lid in the form of a concentrate or powder.

[0050] At the time of consumption, the consumer opens the dispensing lid that drops the coffee concentrate or powder into the main liquid component. This dispensation triggers release of the dissolved gas in the main liquid component, generating a thick and creamy foam head in the container. The consumer can thus enjoy a foamy RTD cappuccino beverage in the container itself.

Example 3

[0051] A RTD cold foaming tea can be provided. The main liquid component can comprise water, a suitable food grade surfactant such as Propylene Glycol Alginate (PGA) and/or another surface active hydrocolloid, and tea aroma. Additionally, other flavorings and sweeteners can be added to the main liquid component. The main liquid component is gassed with nitrous oxide (N2O) gas, another gas or a mixture of gasses. The tea, in the form of a powder or concentrate, can be stored in the dispensing lid. Opening the container dispenses the tea powder or concentrate from the dispensing lid into the main liquid component to trigger release of the dissolved gas and formation of a foam head in the RTD beverage container.

[0052] It is well established that storage of coffee or tea solids separately from the aroma is essential to preserve beverage quality. Furthermore, the aroma is significantly more stable at low concentrations. With the self-foaming RTD beverage container disclosed herein, such as in Examples 1-3, the coffee or tea aroma is preferably stored as diluted in the main liquid component to be more stable, and the coffee or tea solids are mixed with the aroma at the time of consumption, thus providing separate storage as well as stabilization of the diluted coffee or tea aroma.

Example 4

[0053] The beverage can be a RTD foaming fruit drink and/or a beverage with an ingredient with a nutritional benefit that requires separate storage to maintain functionality. In this case, the main liquid component can comprise water with a suitable food grade surfactant such as PGA. Other flavorings and sweeteners can also be present in the main liquid component. The main dispensing lid can store a fruit flavored powder or concentrate and/or an ingredient with a nutritional benefit that requires separate storage to maintain functionality. Opening of the container by the consumer releases the contents of the dispensing lid into the main liquid component to trigger release of the dissolved gas and formation of a foam head in the RTD beverage container. The foamed RTD beverage can now be enjoyed by the consumer from the beverage container itself.

Example 5

[0054] A self-foaming RTD cocoa beverage can be provided. The main liquid component is gassed with nitrous oxide (N.sub.2O) gas, another gas or a mixture of gasses to dissolve a sufficient amount of gas for an appropriate foam level. The cocoa is stored in the dispensing lid in the form of a concentrate or powder. At the time of consumption, the consumer opens the dispensing lid that distributes the cocoa concentrate or powder into the main liquid component. This dispensation triggers release of the dissolved gas in the main liquid component, generating a thick and creamy foam head in the container. The consumer can thus enjoy a foamy RTD cocoa beverage in the container itself.

[0055] It should be understood that various changes and modifications to the presently preferred embodiments described herein will be apparent to those skilled in the art. Such changes and modifications can be made without departing from the spirit and scope of the present subject matter and without diminishing its intended advantages. It is therefore intended that such changes and modifications be covered by the appended claims.