Abstract:
The present embodiments generally relate to beverages with enhanced flavors and aromas and method of making same. Some embodiments of the present application are directed to soluble coffee and methods of making soluble coffee with improvements in such qualities as taste and aroma.

Description:
CROSS-REFERENCE TO RELATED APPLICATIONS 
     This application is a continuation of and claims the benefit under 35 U.S.C. §120 of U.S. application Ser. No. 12/170,396 filed Jul. 9, 2008, now U.S. Pat. No. 8,043,645, which is hereby incorporated in its entirety by reference. 
    
    
     BACKGROUND 
     1. Field 
     The present embodiments generally relate to beverages with enhanced qualities such as flavor and aroma and method of making same. 
     2. Description of the Related Art 
     Many beverages have a distinct taste and aroma that is difficult to duplicate in a more convenient form. One example of such a beverage is coffee. With regular coffee, water is boiled in a coffee pot in advance, and ground roasted coffee beans are put directly in contact with boiling water (the standard amount is 10 g of ground roasted coffee beans per 100 ml of boiling water) and are boiled in boiling water to effect extraction or are similarly extracted by using a percolator or the like. The obtained extract contains caffeine, tannic acid, saccharides, fats, proteins and various aromatic components and it has a fragrance inherent to coffee and a peculiar complicated flavor inclusive of a bitter taste, an astringent taste and an acid taste. 
     When roasted coffee beans are ground and then allowed to stand in air, they are readily oxidized which degrades the fragrance and flavors, and when tepid water is used for extraction, the contact time for extraction of roasted coffee beans is usually prolonged. Furthermore, if the boiling time is too long or the extract is allowed to stand for a long time, the fragrance and flavor are degraded. Accordingly, even in case of regular coffee, the method of making coffee is difficult, and it is very difficult to obtain coffee rich in flavor and fragrance. 
     Coffee extract concentrates and coffee extract powders have heretofore been manufactured on an industrial scale, and instant coffee beverages which can instantly be drunk by dissolving them in hot water or cold water have been prepared and marketed. Ordinarily, these instant coffee beverages are prepared according to a process comprising charging ground roasted coffee beans in an extraction tank, extracting the beans with hot water or boiling water, and subjecting the extract to drying treatments such as spray drying, vacuum drying or freeze drying. Instant coffee beverages prepared according to such conventional processes contain components which cannot ordinarily be drunk, though the amounts of these components differ to some extent according to the extraction conditions like the extraction temperature and time, the concentration conditions and the drying conditions. 
     Many aromas and flavors associated with coffee are very delicate and complex. With conventional soluble coffee, the delicate coffee flavors and aromas are often degraded or lost during processing and manufacturing methods. Coffee aroma is known to be very unstable. As coffee aroma degrades, it generates unpleasant and non-coffee-like notes that are undesirable. This degradation substantially reduces the perceived quality of the product. For this reason, special attention must be paid to the preparation and storage of flavoring components such as coffee aroma so that desirable aroma components are enhanced or undesirable components are reduced or eliminated. 
     Furthermore, since the extract is exposed to high temperatures for a relatively long period of time during the preparation, the flavor and fragrance are degraded by cooking, evaporation and oxidative decomposition of aromatic components, and the delicate aroma inherent to coffee is lost. The conventional product usually comes to have an excessive scorching taste. In short, the obtained beverage is far from regular coffee in both the flavor and fragrance. The soluble coffee of the present embodiments overcome these problems in the prior art as well as provide additional advantages. 
     SUMMARY 
     Some embodiments relate to a soluble coffee product, comprising: a dry coffee extract component; and a pulverized coffee component, wherein the pulverized coffee component has not been extracted, and wherein the pulverized coffee component is added to the dry coffee extract component after the dry coffee extract is dried. 
     In some embodiments, the pulverized coffee component is added to the dry coffee extract component both before and after the dry coffee extract is dried. 
     In some embodiments, the dry coffee extract component comprises from about 70% to about 90% of the soluble coffee product and, wherein the ground coffee component comprises from about 10% to about 30% of the soluble coffee product. 
     In some embodiments, the dry coffee extract component comprises from about 70% to about 99.9% of the soluble coffee product and, wherein the ground coffee component comprises from about 0.1% to about 30% of the soluble coffee product. 
     In some embodiments, the pulverized coffee component has a mean particle size of about 350 microns or less. In some embodiments, the pulverized coffee component has a median particle size of about 350 microns or less. 
     Some embodiments further comprise an additive selected from the group consisting of coffee oils, non-coffee oils, non-coffee aromas, and coffee aromas. 
     Some embodiments further comprise at least one selected from the group consisting of coffee extract, concentrated coffee, dried coffee, coffee oils, coffee aromas (distillates), flavor powders, flavor oils, spices, ground or pulverized cocoa beans, ground or pulverized vanilla beans, vitamins, antioxidants, nutraceuticals, dietary fiber, an omega-3 oil, an omega-6 oil, an omega-9 oil, a flavonoid, lycopene, selenium, a beta-carotene, resveratrol, a vegetable extract, a dry green coffee extract, a wet green coffee extract and an herbal extract. 
     Some embodiments relate to a method of making a soluble coffee product, comprising: pulverizing coffee beans to form a first pulverized coffee product, grinding or pulverizing coffee beans to form a second ground or pulverized coffee product, extracting the second ground or pulverized coffee product to form an extracted coffee product, combining the first pulverized coffee product with the extracted coffee product to form a first coffee blend, drying the first coffee blend to form a first dried coffee blend, combining the first pulverized coffee product with the first dried coffee blend to form the soluble coffee product. 
     In some embodiments, the coffee is pre-frozen before being pulverized. 
     In some embodiments, the coffee is not pre-frozen before being pulverized, further comprising the step of refrigerating the grinding and pulverizing machinery. 
     In some embodiments, the coffee is pre-frozen, further comprising the step of refrigerating the grinding and pulverizing machinery. 
     Some embodiments further comprise the step of adding to the first coffee blend at least one selected from the group consisting of coffee extract, concentrated coffee, dried coffee, coffee oils, coffee aromas (distillates), flavor powders, flavor oils, spices, ground or pulverized cocoa beans, ground or pulverized vanilla beans, vitamins, antioxidants, nutraceuticals, dietary fiber, an omega-3 oil, an omega-6 oil, an omega-9 oil, a flavonoid, lycopene, selenium, a beta-carotene, resveratrol, a vegetable extract, dry green coffee extract, wet green coffee extract and an herbal extract. 
     In some embodiments, the grinding or pulverizing is carried out at a temperature of from about 20° C. to about 50° C. 
     Some embodiments further comprise the step of refrigerating grinding and pulverizing machinery to a temperature of about −5° C. or less. 
     Some embodiments relate to a method of making a soluble coffee product, comprising: grinding or pulverizing coffee beans to form a first ground or pulverized coffee product, grinding or pulverizing coffee beans to form a second ground or pulverized coffee product, pulverizing coffee beans to form a third pulverized coffee product, extracting the first ground or pulverized coffee product and separating the first ground or pulverized coffee product into a coffee flavor component and a coffee aroma component, extracting the second ground or pulverized coffee product to form a first extracted coffee product, combining the coffee aroma component with the extracted coffee product to form a first coffee blend, combining the first coffee blend with the third pulverized coffee product to form a second coffee blend, drying the second coffee blend to form a first dried coffee blend, combining the third pulverized coffee with the first dried coffee blend to form the soluble coffee. 
     In some embodiments, the coffee is pre-frozen before the pulverizing. 
     In some embodiments, the coffee is not pre-frozen before the pulverizing, further comprising the step of refrigerating the grinding and pulverizing machinery. 
     Some embodiments further comprise the step of adding to the first coffee blend at least one selected from the group consisting of coffee extract, concentrated coffee, dried coffee, coffee oils, coffee aromas (distillates), flavor powders, flavor oils, spices, ground or pulverized cocoa beans, ground or pulverized vanilla beans, vitamins, antioxidants, nutraceuticals, dietary fiber, an omega-3 oil, an omega-6 oil, an omega-9 oil, a flavonoid, lycopene, selenium, a beta-carotene, resveratrol, a vegetable extract, dry green coffee extract, wet green coffee extract and an herbal extract. 
     In some embodiments, the pulverizing and grinding is carried out at a temperature of from about 20° C. to about 50° C. 
     In some embodiments, the pulverizing and grinding is carried out at a temperature of less than about 1° C. 
     In some embodiments, the temperature of the equipment and coffee product in each step is about −5° C. or less. 
     Some embodiments relate to a soluble coffee product prepared by a method comprising: pulverizing coffee beans to form a first pulverized coffee product grinding or pulverizing coffee beans to form a second ground or pulverized coffee product, extracting the second ground or pulverized coffee product to form an extracted coffee product, combining the first pulverized coffee product with the extracted coffee product to form a first coffee blend, drying the first coffee blend to faun a first dried coffee blend, combining the first pulverized coffee product with the first dried coffee blend to form the soluble coffee product. 
     In some embodiments, the dry coffee extract component comprises from about 70% to about 90% of the soluble coffee product and, wherein the ground coffee component comprises from about 10% to about 30% of the soluble coffee product. 
     In some embodiments, the dry coffee extract component comprises from about 70% to about 99.9% of the soluble coffee product and, wherein the ground coffee component comprises from about 0.1% to about 30% of the soluble coffee product. 
     In some embodiments, the ground coffee component has a mean particle size of about 350 microns or less. In some embodiments, the pulverized coffee component has a median particle size of about 350 microns or less. 
     Some embodiments further comprise at least one selected from the group consisting of coffee oils, non-coffee oils, non-coffee aromas, and coffee aromas. 
     Some embodiments further comprise at least one additive selected from the group consisting of coffee extract, concentrated coffee, dried coffee, coffee oils, coffee aromas (distillates), flavor powders, flavor oils, spices, ground or pulverized cocoa beans, ground or pulverized vanilla beans, vitamins, antioxidants, nutraceuticals, dietary fiber, an omega-3 oil, an omega-6 oil, an omega-9 oil, a flavonoid, lycopene, selenium, a beta-carotene, resveratrol, a vegetable extract, dry green coffee extract, wet green coffee extract and an herbal extract. 
     Some embodiments relate to a method of making a soluble coffee product, comprising: grinding or pulverizing coffee beans to form a first ground or pulverized coffee product, grinding or pulverizing coffee beans to form a second ground or pulverized coffee product, pulverizing coffee beans to form a third pulverized coffee product, extracting the first ground or pulverized coffee product and separating the first ground or pulverized coffee product into at least a first extracted component and a extracted second component, extracting the second ground or pulverized coffee product to form a first extracted coffee product, combining the coffee aroma component with the extracted coffee product to faun a first coffee blend, combining the first coffee blend with the third pulverized coffee product to form a second coffee blend, drying the second coffee blend to form a first dried coffee blend, combining the third pulverized coffee with the first dried coffee blend to form the soluble coffee. 
     In some embodiments, the first extracted component is a flavor component and the second extracted component is an aroma component. 
     In some embodiments, the coffee is pre-frozen before the pulverizing. 
     In some embodiments, the coffee is not pre-frozen before the pulverizing, further comprising the step of refrigerating the grinding and pulverizing machinery. 
     Some embodiments further comprise the step of adding to the first coffee blend at least one selected from the group consisting of coffee extract, concentrated coffee, dried coffee, coffee oils, coffee aromas (distillates), flavor powders, flavor oils, spices, ground or pulverized cocoa beans, ground or pulverized vanilla beans, vitamins, antioxidants, nutraceuticals, dietary fiber, an omega-3 oil, an omega-6 oil, an omega-9 oil, a flavonoid, lycopene, selenium, a beta-carotene, resveratrol, a vegetable extract, dry green coffee extract, wet green coffee extract and an herbal extract. 
     In some embodiments, the pulverizing and grinding is carried out at a temperature of from about 20° C. to about 50° C. 
     In some embodiments, the pulverizing and grinding is carried out at a temperature of less than about 1° C. 
     In some embodiments, the temperature of the equipment and coffee product in each step is about −5° C. or less. 
     Some embodiments further comprise the step of adding the first extracted component or the second extracted component to the first dried coffee blend. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         FIG. 1  is a process flow diagram illustrating an overview of one embodiment of a method of making a coffee beverage with enhanced flavor and aroma. 
         FIG. 2  is a process flow diagram illustrating an overview of one embodiment of a method making a coffee beverage with enhanced flavor and aroma. 
         FIG. 3  is a process flow diagram illustrating an overview of one embodiment of a method of pulverizing a raw material in a refrigerated environment. 
     
    
    
     DETAILED DESCRIPTION 
     The following discussion is presented to enable a person skilled in the art to make and use one or more of the present embodiments. The general principles described herein may be applied to embodiments and applications other than those detailed below without departing from the spirit and scope of the disclosure. Therefore the present embodiments are not intended to be limited to the particular embodiments shown, but are to be accorded the widest scope consistent with the principles and features disclosed or suggested herein. 
     Coffee and other products subjected to processing such as that necessary to make an instant form of the product go through flavor and aroma changes. These changes come from the altering of the initial bonded structures of the compounds within the products. With coffee, any kind of processing can alter the bonded structures of the compounds found in unprocessed coffee beans. Some embodiments relate to a method of adding or restoring the flavor and aroma associated with an unprocessed food product to a processed or instant version of the product. In some embodiments, the product is coffee. Some embodiments relate to methods involving pulverization of, for example, roasted coffee beans, fresh tea leaves, coco beans or other food ingredients as a mean of adding or restoring freshness, flavor and aroma of, for example, soluble coffee, teas, chocolates, etc. Some embodiments also allow for the introduction of different and unique flavors and aromas into food products. Some embodiments allow for the introduction of supplements to food products. 
     Some embodiments of the present disclosure are directed to soluble coffee and methods of making soluble coffee with improved taste and aroma. Referring to  FIG. 1 , in accordance with an illustrative embodiment, two streams of roasted whole coffee beans are prepared and treated. In the first stream, roasted whole bean coffee beans are pulverized to form pulverized coffee. In some embodiments, the pulverized coffee has a particle size of less than about 350 microns in diameter. In some embodiments, the pulverized coffee component has a median particle size of about 350 microns or less. In the second stream, roasted whole bean coffee beans are ground or pulverized and extracted to produce a wet coffee extract. A portion of the pulverized coffee from the first stream is added to the wet coffee extract of the second stream to form Blend A. 
     In the embodiments described in  FIG. 1 , the combination of pulverized roasted whole bean coffee beans from the first stream with the extracted ground or pulverized whole bean coffee of the second stream at this wet stage of the process adds complexity, including a more authentic coffee flavor and aroma, to the soluble coffee. Blend A is then dried in a drying process (e.g., freeze-dried, hot air dried, or any other drying process). Dried blend A is then combined with at least one additional component to form blend B, which, in this embodiment, is the bulk soluble coffee product. Such components can include, for example, pulverized coffee from the first stream, coffee extract, concentrated coffee, dried coffee, coffee oils, coffee aromas, distillates, flavor powders, flavor oils, spices, ground or pulverized cocoa beans, ground or pulverized vanilla beans, vitamins, antioxidants, nutraceuticals, dietary fiber, an omega-3 oil, an omega-6 oil, an omega-9 oil, a flavonoid, lycopene, selenium, a beta-carotene, resveratrol, a vegetable extract and an herbal extract etc. In certain embodiments the dried blend A is combined with pulverized coffee from the first stream to form blend B. 
     In some embodiments, the dry addition of pulverized coffee to dry coffee extract adds aroma, flavor complexity and body to the finished bulk product. The addition of pulverized coffee can be accomplished by one or more of many different methods, e.g., centrifugal equipment, lightning mixer, ribbon blender, PK blender, sonic methods, etc. In some embodiments, other compounds may be added during the process, including non-coffee oils, non-coffee aromas, coffee aromas, etc. In some embodiments, pulverized coffee can be encapsulated with carbohydrates, soy products, dairy ingredients or other agents. One advantage of the encapsulation is to protect against degradation from environmental factors. 
     Coffee aromas are the volatile components of coffee that produce the characteristic fragrance of coffee. In some embodiments, the coffee aroma can be provided to the final beverage product in the form of a highly aromatized coffee concentrate. The aromatized coffee concentrate is prepared by adding coffee aroma to a coffee concentrate. Methods of preparing coffee concentrates are well known to one of skill in the art. 
     In some embodiments, coffee aroma is in the form of natural coffee aroma components that are collected during the preparation of soluble coffee powder. In some embodiments, the natural coffee aroma includes highly volatile aroma components. Highly volatile aroma components are those which condense at a temperature below about 0° C. To recover highly volatile aroma components, volatile aroma components may be flushed from the coffee during processing using an inert carrier gas such as nitrogen. The aroma-laden carrier gas is then chilled to temperatures lower than about −40° C., and sometimes as low as about −195° C., to cause the aroma components to condense. The condensed aroma components are then collected. Suitable procedures for capturing coffee aroma are known to one of skill in the art. 
     Referring to  FIG. 2 , in accordance with an illustrative embodiment, three streams of roasted whole coffee beans are treated to form a coffee product with enhanced flavor and aroma components. In the first stream, roasted whole bean coffee beans are pulverized or ground to form pulverized or ground coffee. In some embodiments, the pulverized or ground coffee has a particle size of less than about 350 microns in diameter. In some embodiments, the pulverized coffee component has a median particle size of about 350 microns or less in diameter. The pulverized or ground coffee is then extracted to separate the aroma compounds from the flavor compounds. In the second stream, roasted whole bean coffee beans are pulverized or ground and extracted to produce a wet coffee extract. A portion of the separated aroma components from the first stream is added to the wet coffee extract of the second stream to form Blend A. In the third stream, roasted whole bean coffee beans are pulverized and a portion of the resulting pulverized coffee is added to wet blend A to form blend B. 
     Blend B is then dried in a drying process (e.g., freeze-dried, or any other drying process). Dried Blend B is then combined with at least one of: pulverized coffee from the third stream, coffee extract, concentrated coffee, dried coffee, coffee oils, coffee aromas (distillates), flavor powders, flavor oils, spices, ground or pulverized cocoa beans, ground or pulverized vanilla beans, vitamins, antioxidants, nutraceuticals, dietary fiber, an omega-3 oil, an omega-6 oil, an omega-9 oil, a flavonoid, lycopene, selenium, a beta-carotene, resveratrol, a vegetable extract and an herbal extract to form Blend C, which, in this embodiment, is the bulk soluble coffee product. In certain embodiments the dried Blend B is combined with pulverized coffee from the third stream to form Blend C. In some embodiments, the flavor components of the extracted pulverized or ground coffee of the first stream are combined with blend A. In some embodiments, the flavor components of the extracted pulverized or ground coffee of the first stream are combined with blend B. In some embodiments, the flavor components of the extracted pulverized or ground coffee of the first stream are combined with blend C. 
     In some embodiments, the combination of the pulverized or ground roasted whole bean coffee, aroma separation components from the first stream with the extracted pulverized or ground whole bean coffee of the second stream at this wet stage of the process adds a unique aroma property, including a more authentic coffee aroma, to the soluble coffee. 
       FIG. 3  depicts an illustrative process for preparing some of the products of certain embodiments. In this example, roasted coffee beans are frozen at a temperature below about −5° C. and then fed through a conveying line that is also refrigerated. Then the product is pulverized in the presence of liquid nitrogen and sent through a scalping screen to ensure the passage of only small particle pulverization product. In some embodiments, liquid nitrogen is added directly to the product. In some embodiments, the liquid nitrogen is used to cool the grinding or pulverizing machinery. In some embodiments the liquid nitrogen is added directly to the product and also used to cool the grinding or pulverizing machinery. In an illustrative embodiment, the ground product is then discharged into packaging, vacuum sealed, flushed with nitrogen and then stored in deep freeze storage. However, in some embodiments, the ground product is instead introduced into other process steps as those discussed herein. In some embodiments, the packaged and stored product can be later used in other processes as well. 
     In some embodiments, the pulverized or ground coffee can be produced in concert with refrigeration of the grinding machinery. Also, in some embodiments, ground or pulverized coffee product can be cooled as it leaves the grinding machinery. In some embodiments the grinding machinery is refrigerated and also the pulverized or ground coffee product is cooled as it exits the grinding machinery. 
     In accordance with some embodiments, coffee can be processed as described above to maintain a pleasing flavor and aroma. In some embodiments, roasted whole bean coffee is processed under low temperatures, for example, less than about 15° C. and low relative humidity, for example, less than about 30%. In some embodiments, the internal temperature of the milling equipment is controlled to ensure a temperature of less than about 15° C. Roasted whole bean coffee beans can be pre-frozen and surfaces that come into contact with the coffee beans can be kept cooled with a cooling medium, such as, for example, liquid nitrogen, to avoid flavor loss and degradation. 
     Coffee exposure to oxygen can be minimized using conventional methods, for example, nitrogen purging, vacuum packaging, etc. Also, liquid nitrogen can be used as an oxygen scavenger during processing to minimize the degradative effects of oxygen. Coffee that is pulverized under such conditions retains much of its original flavor and aroma. Such pulverized coffee can be blended or encapsulated with coffee in various forms, including ground coffee, extracts, concentrate coffee, dried coffee, coffee oils, aromas (distillates), carbohydrates, soy products, dairy products or other agents and subsequently added to dry soluble coffee. 
     In some embodiments, coffee and other products being subjected to pulverization are deep frozen (colder than −5° C.) prior to grinding. This process allows for better pulverization of the product and yields more homogenous particles while minimizing the oxidation and degradation of the pulverized product. Lines supplying the grinder can be equipped with, for example, refrigerants or a liquid nitrogen feeding system in order to maintain the low temperature and efficiency. Cooling and scavenging gases are ideal, since they can provide cooling and removal of oxidizing elements. To minimize condensation, the equipment can be insulated to avoid surface and internal condensations in the conveying equipment, pulverizing equipment and collection/storage equipment of the milled product. 
     Any type of grinding equipment can be used in the present embodiments, for example, a cage mill, a hammer mill, etc. to pulverize a product such as coffee. In some embodiments, the equipment is maintained at very low temperatures (20° C. to −50° C.) via cooling media. This helps maintain the integrity of the material being pulverized. Liquid nitrogen or other refrigerants can be used to cool the equipment. Pulverization generates heat, which combined with exposed oxygen, can often degrade the pulverized product. Feeding liquid nitrogen to the grinding cavity is one example of a way to keep the grinding machine at low temperatures as well as displacing and scavenging oxygen. 
     In some embodiments the pulverized product falls into a refrigerated container at from about 0° C. to about 20° C. In some embodiments the pulverized product falls into a refrigerated container at less than about 20° C. Some embodiments involve using liquid nitrogen cooling of the container including liquid or gas nitrogen inside the container for product preservation. During operation, the discharging cavity should be continually flushed with gaseous nitrogen to minimize oxidation. In some embodiments, the operation takes place under controlled environmental conditions to protect the resulting product from moisture uptake. 
     In some embodiments, in order to ensure quality, the final product is moved to an oxygen free environment, vacuum packed, sealed and stored under deep freeze conditions (about −20° C. or colder), until used or sold. 
     Some embodiments relate to blending pulverized components in with liquid (wet blending) and dry (dry blending) coffee ingredients and/or related products. The dry or wet blending operation is the process of incorporating, adding, infusing, mixing, encapsulating, spraying or fluidizing, etc, the pulverized product into a coffee or appropriate product stream at required ratio to deliver design aroma, flavor, and appearance. Adequate processing (ribbon blender, PK blenders, fluidizing beds, coaters or others) and mixing equipments can be used to ensure homogeneity. In some embodiments the wet blending takes place at controlled temperatures, e.g., less than about 15° C. Rotation, cycle time and control of the process can differ, however, in some embodiments, these variables are controlled in such a way as to ensure uniform distribution, and prevent foaming and particle segregation. 
     In some embodiments, dry blending occurs in an enclosed blender and a controlled environment to minimize oxidation and moisture exposure. Upon blending, the product can be readily stored in proper packaging, such as, for example packed tightly to form a brick like package with nitrogen flushing and maintained under controlled conditions, such as temperatures less than about 10° C. 
     In some embodiments, the physicochemical and sensory attributes of pulverized products can also be protected by means of encapsulation (spray-drying, coating, extrusion, coacervation and molecular inclusion). Some embodiments utilize microencapsulation. With encapsulation, the encasing layer is attained, for example, via molecular, interfacial, colloidal and bulk physicochemical properties of emulsions. The encasement reduces the reactivity of the core with regard to outside environment, for example oxygen and water. This permits the extension of shelf life of a product in conventional packaging applications. In some embodiments, encapsulation can be used for controlled release of the inner material or core. The encased pulverized product can remain inactive until direct contact with water. Then the water can dissolve the encasement and the pulverized product is able to react with water, releasing aromas and flavors. 
     In some embodiments, the encapsulation of pulverized coffee can be used to optimize product functionality, particle size and/or create a new product form. Encapsulation can be done with products including, coffee extracts, coffee concentrates, dry pulverized coffee, coffee oils or other oils, aromas, functional ingredients, etc. In addition, pulverized products can be encapsulated by carbohydrates, soy products, dairy products or other agents to protect against environmental elements 
     Conditional language, such as, among others, “can,” “could,” “might,” or “may,” unless specifically stated otherwise, or otherwise understood within the context as used, is generally intended to convey that certain embodiments include, while other embodiments do not include, certain features, elements and/or steps. Thus, such conditional language is not generally intended to imply that features, elements and/or steps are in any way required for one or more embodiments or that one or more embodiments necessarily include logic for deciding, with or without user input or prompting, whether these features, elements and/or steps are included or are to be performed in any particular embodiment. 
     It should be emphasized that many variations and modifications may be made to the above-described embodiments, the elements of which are to be understood as being among other acceptable examples. All such modifications and variations are intended to be included herein within the scope of this disclosure and protected by the following claims.