Described herein is a process for the preparation of a flavored composition. The process provides an advantageous sustainable alternative to conventional drying (such as for example spray-drying) as it takes place at room temperature. Also described herein is a flavored composition obtainable by said process. Also described herein are consumer products including said flavored composition.

Described herein is a process for the preparation of a flavored composition. The process provides an advantageous sustainable alternative to conventional drying (such as for example spray-drying) as it takes place at room temperature. Also described herein is a flavored composition obtainable by said process. Also described herein are consumer products including said flavored composition.

Rapidly dissolving flavoring composition concentrates are provided. The flavoring composition concentrates have a flavor, a solvent system, a flavor carrier system, and a densifier. The densifier is an acid modifier present in an amount such that it optimizes the rate of dispersion of the concentrate in water.

Provided herein are natural sweetener combinations for use in the manufacture of ingestible products, typically foods and beverages, wherein the natural sweetener combinations comprise or consist of two or more of a stevia extract, a sugar alcohol and monk fruit extract. Also provided are ingestible products, typically foods and beverages, containing said natural sweetener combinations.

Provided herein are natural sweetener combinations for use in the manufacture of ingestible products, typically foods and beverages, wherein the natural sweetener combinations comprise or consist of two or more of a stevia extract, a sugar alcohol and monk fruit extract. Also provided are ingestible products, typically foods and beverages, containing said natural sweetener combinations.

A method for forming encapsulated sweetener granules (ESGs) may include heating a first mixture to form a molten mixture, the first mixture includes one or more polyols and one or more hydrocolloids; cooling the molten mixture to a first temperature to form a cooled molten mixture; adding one or more high-intensity sweeteners to the cooled molten mixture to form a second mixture; cooling the second mixture to a second temperature to form one or more sheets, the second temperature being different from the first temperature; and fragmenting the one or more sheets to form a plurality of encapsulated sweetener granules. The first temperature may be between about 120° C. and about 200° C. The second temperature may be below a glass transition temperature (T.sub.g) of the one or more polyols and the one or more hydrocolloids. For example, the second temperature may be between about 65° C. and about 200° C.

A method for forming encapsulated sweetener granules (ESGs) may include heating a first mixture to form a molten mixture, the first mixture includes one or more polyols and one or more hydrocolloids; cooling the molten mixture to a first temperature to form a cooled molten mixture; adding one or more high-intensity sweeteners to the cooled molten mixture to form a second mixture; cooling the second mixture to a second temperature to form one or more sheets, the second temperature being different from the first temperature; and fragmenting the one or more sheets to form a plurality of encapsulated sweetener granules. The first temperature may be between about 120° C. and about 200° C. The second temperature may be below a glass transition temperature (T.sub.g) of the one or more polyols and the one or more hydrocolloids. For example, the second temperature may be between about 65° C. and about 200° C.

Provided are a novel agent or composition and others.

The agent or composition comprises caryophyllene and is used for at least one selected from the following (purposes) (1) to (3) : (1) promoting relaxation, prolonging a resting-state time, and/or prolonging a motionless time, (2) promoting sleep, and (3) preventing blood pressure elevation.

The present invention also relates to a method for inhaling β-caryophyllene simultaneously with smoking a tobacco product, characterized in that the tobacco product contains a β-caryophyllene-containing seamless capsule in a tobacco filter, wherein the seamless capsule contains an essential oil containing β-caryophyllene as an active ingredient. The applicants found that pulmonary inhalation of β-caryophyllene by the above method allows β-caryophyllene to be efficiently distributed throughout the body, leading to achievements of relaxing and sleep-inducing effects, etc.

Terpene flavoring compositions, methods of using them to flavor foods, beverages, or vaporizer compositions, and methods of making and consuming these compositions.

Described herein is a system, methods, processes and nutrient-rich products-by-process, which are generated by the conversion of winery derivatives into nutrient-rich products in an ecological manner. Integration of this system into a winery assists the winery to manage its previously-considered waste nutrient-rich products in an ecological manner, which can also optionally provide them with a novel revenue stream. The system, methods, and processes are used to convert winemaking derivatives into bioactive nutrient-rich products comprising antioxidants and other bioactive molecules that reside within the marc and lees. These nutrient-rich products can be used as natural flavour, texture and color enhancers, in addition to nutritional ingredients to fortify processed foods and consumer recipes. They can also be used as health supplements and in the cosmetic industry.