A method to process microalgae biomass and produce high-value chemicals from microalgae biomass is disclosed. The method uses the same biomass cells to extract more than one component such as are lipids, water-soluble chemicals, carotenoids, polysaccharides and algae meal. The method is a sequence of physical and chemical treatments. Water soluble polysaccharides produced by the method exhibit properties of low viscosity at low shear thinning. A method for extracting dietary fiber from microalgal biomass is disclosed. Compositions of water-soluble polysaccharides that are fermented slowly by colon microbiota with less gas production than commercial dietary fiber FOS are disclosed. The present inventions described herein provide a method of improving colon health by increasing butyrate during a microalgal dietary fiber fermenting process by colonic microbiota.

Provided herein are compositions with enhanced sweetness per weight when compared to the sweetener carbohydrate or sweetener polyol component thereof, and methods for the preparation thereof.

Provided herein are compositions with enhanced sweetness per weight when compared to the sweetener carbohydrate or sweetener polyol component thereof, and methods for the preparation thereof.

The present invention provides a flavor extract of low-temperature-pressed peanut cake which is extracted from low-temperature-pressed peanut cake. In the flavor extract, the content of pyrazines flavor substances is not less than 55%, and the content of the aldehydes substances is not more than 15%. The present invention also provides a method for improving the flavor of peanut oil by using the flavor extract of the low-temperature-pressed peanut cake. The flavor extract extracted from peanut cake according to the present invention, which contains 55% or more pyrazines flavor substances, can not only improve the flavor of low-temperature-pressed peanut oil significantly, but also retain the original quality and color of the low-temperature-pressed peanut oil when it is added to low-temperature-pressed peanut oil.

The present invention provides a flavor extract of low-temperature-pressed peanut cake which is extracted from low-temperature-pressed peanut cake. In the flavor extract, the content of pyrazines flavor substances is not less than 55%, and the content of the aldehydes substances is not more than 15%. The present invention also provides a method for improving the flavor of peanut oil by using the flavor extract of the low-temperature-pressed peanut cake. The flavor extract extracted from peanut cake according to the present invention, which contains 55% or more pyrazines flavor substances, can not only improve the flavor of low-temperature-pressed peanut oil significantly, but also retain the original quality and color of the low-temperature-pressed peanut oil when it is added to low-temperature-pressed peanut oil.

This application describes a method for preparing a fermented red ginseng powder dispersion with improved dispersibility and ginsenoside content. The method includes (a) grinding red ginseng to obtain powdered red ginseng; (b) introducing the powdered red ginseng into a mixed liquid including -Glucosidase to react with the powdered red ginseng; (c) inoculating the mixed liquid with a fermented strain for fermentation; and (d) controlling a concentration of the mixed liquid to a predetermined range.

Provided herein are compositions with enhanced sweetness per weight when compared to the sweetener carbohydrate or sweetener polyol component thereof, and methods for the preparation thereof.

The present invention refers to a method and an equipment for the extraction of compounds from grapes by means of ultrasound in vinification processes generated through a sonoplate coupled to the walls of the pipe/duct through which the crushed grapes flow. During this extraction the transfer of phenols responsible for color from the solid portion (skin) to the liquid portion after crushing the grapes takes place as a consequence of the phenomenon known as cavitation, which allows the breaking of the skin cells and makes the phenolic compounds responsible for the color available to the liquid medium to be integrated in said liquid medium enhancing wine color.

The present invention refers to a method and an equipment for the extraction of compounds from grapes by means of ultrasound in vinification processes generated through a sonoplate coupled to the walls of the pipe/duct through which the crushed grapes flow. During this extraction the transfer of phenols responsible for color from the solid portion (skin) to the liquid portion after crushing the grapes takes place as a consequence of the phenomenon known as cavitation, which allows the breaking of the skin cells and makes the phenolic compounds responsible for the color available to the liquid medium to be integrated in said liquid medium enhancing wine color.

Disclosed is a method for producing oleogels by sonicating a mixture including an oleogelator component and an oil component with ultrasound including superpositioned ultrasound waves while cooling the mixture from a temperature wherein the mixture is in molten state to a temperature wherein the oleogelator component of the mixture is at least partially in solid state. The method produces oleogels of improved stability.