Compositions and methods that relate to improved chocolate milk are provided. The chocolate milk may be shelf stable and k-carrageenan free. The chocolate milk does not undergo visually detectable phase separation for at least 7 days. The chocolate milk that does not undergo the visually detectable phase separation contains from 1%-10% micellar casein w/v. Methods for preparing shelf stable k-carrageenan free chocolate milk are also provided and include mixing cocoa powder, sugar, milk, and micellar casein to obtain a mixture, and optionally heating and homogenizing the mixture, and subsequently subjecting the mixture to High Pressure Jet Processing (HPJ) or high pressure homogenization of at least 300 MPa, thereby producing the shelf table k-carrageenan free chocolate milk. The shelf stable k-carrageenan free chocolate milk of produced using such a method may be refrigerated temperature for at least 14 days, and does not undergo detectable phase separation for at least 14 days.

The present invention relates to the field of processing pea protein compositions. The present invention particularly relates to a method for preparing a high solubility pea protein composition and a product prepared thereby. The method of the present invention includes a step of subjecting a pea protein composition to high pressure homogenization. The method of the present invention significantly improves the solubility of pea protein compositions. The present invention further provides a pea protein composition prepared by the method, the pea protein composition having better solubility.

The present application relates to a microcapsule comprising a core comprising one or more hydrophobic agents dispersed in a gel matrix; a proteolytically-cleavable outer polymer shell surrounding said core; and an enzymatically-cleavable lipid layer between said core and said shell. Also described are methods of making and using the microcapsules.

Disclosed is a method for making shelf-stable nitrogenous organic acid (e.g., creatine) ingredients for products such as nutritional bars, liquids, and/or powders.

The disclosure provides sweetener compositions of high intensity sweeteners, such as steviol glycosides and monk fruit extract, together with syrups and/or carbohydrates.

A fish odor-free fish oil composition includes a colloidal raw material and an oily raw material containing fish oil. A preparation method for the fish odor-free fish oil composition includes the following steps: (a) mixing and stirring the colloidal raw material with water and warming to 80 to 85 C., continuing for 5 to 30 minutes, then cooling to 48 to 53 C.; and (b) stirring the oily raw material containing fish oil and emulsifying in an emulsification tank jointly with the colloidal mixture formed in step (a).

The present invention provides a grain fortification system. The said system comprises a plurality of fortification tanks each containing at least one fortifying solution. The system further includes a homogenizer connected to the plurality of fortification tanks, wherein the homogenizer is adapted to receive at least one fortifying solution from the said plurality of fortification tanks to produce a homogenized fortification solution. The system further includes a fortification reactor connected to the said homogenizer. The said fortification reactor is adapted to receive the said homogenized fortification solution from the homogenizer, is adapted to receive the raw food grains, and react the said homogenized fortification solution with the said raw food grains to produce fortified grains by degassing the raw food grains at a preset degassing condition and adsorbing the said homogenized fortification solution on the degassed raw food grains in predefined controlled ambient adsorption conditions to produce fortified grains. The system further includes a fortification solution collection tank connected to the said fortification reactor at one end and to the said homogenizer at another end, wherein the said fortification solution collection tank is adapted to collect, store and recirculate a leftover fortification solution from the said fortification reactor to the said homogenizer. Also, disclosed is a process for grain fortification.

The present invention relates to a composition in the form of an oil-in-water emulsion, containing wheat flour and physically modified starch. The invention also relates to a method for preparation of the composition. The invention further relates to the use of a wheat flour and physically modified starch to reduce syneresis in an oil-in-water emulsion.

The present invention is directed to a liquid heat sterilized enteral composition comprising: a protein source in an amount of 12 to 20% by weight of the composition, the protein source consisting of whey protein containing whey protein micelles and a source of casein. The inventive heat sterilized enteral composition preferably has a cysteine content of 1.2 to 2.4% by weight of the composition. The present invention is furthermore directed to a process for preparing a heat sterilized enteral composition comprising protein in an amount of 12 to 20% by weight based on the weight of the composition, said protein consisting of whey protein containing whey protein micelles and casein, which comprises the steps of: (i) Providing an aqueous solution of a protein source consisting of whey protein containing whey protein micelles and (ii) Adding a protein source containing casein; (iii) Optionally performing a homogenization treatment step; (iv) Performing a heat treatment step; (v) Optionally performing a homogenization treatment step. Finally, the invention concerns the use of a protein source consisting of whey protein containing whey protein micelles and a source of casein, for preparing an enteral composition and/or for controlling the viscosity of a liquid enteral composition, wherein the enteral composition comprises 12 to 20 weight % total protein. The invention also concerns medical uses and treatments applying or using the inventive heat sterilized enteral composition.

The invention relates to a process for the manufacture of an aqueous dispersion comprising mustard bran comprising the following steps: providing an aqueous dispersion comprising mustard bran particles and applying a high pressure homogenisation treatment to alter the sugar moiety ratio of the mustard bran particles. The invention further relates to an oil-in-water emulsion comprising an aqueous dispersion that can be prepared by the aforementioned process.