The present invention relates to a method for preparing a spray-dried dairy powder for forming a milk beverage when dissolved in a beverage medium, the method comprising: forming a dairy composition by: (i) adding a sugar composition to a dairy liquid; or (ii) blending a sugar solution with a dairy liquid, and spray-drying the dairy composition to form a spray-dried dairy powder comprising amorphous sugar, wherein the sugar composition or the sugar solution provides from 10 to 40 wt. % sugar by weight of the spray-dried dairy powder and wherein the sugar is selected from sucrose, lactose and a mixture thereof.

The present invention relates to a method for preparing a spray-dried dairy powder for forming a milk beverage when dissolved in a beverage medium, the method comprising: forming a dairy composition by: (i) adding a sugar composition to a dairy liquid; or (ii) blending a sugar solution with a dairy liquid, and spray-drying the dairy composition to form a spray-dried dairy powder comprising amorphous sugar, wherein the sugar composition or the sugar solution provides from 10 to 40 wt. % sugar by weight of the spray-dried dairy powder and wherein the sugar is selected from sucrose, lactose and a mixture thereof.

Disclosed are processes for preparing dry or powder dairy compositions having low lactose contents and containing polyphenol compounds. The resultant dry or powder dairy compositions can be used to form reconstituted fluid dairy products, which can have improved organoleptic properties, such as less cooked flavor, sulfur odor, and brown color.

The present disclosure relates to microencapsulated compositions comprising one or more hydrophobic materials encapsulated by an encapsulant, wherein the encapsulant comprises one or more modified proteins and/or peptides; and wherein the one or more modified proteins and/or peptides are obtained from a starting protein by subjecting the starting protein to a high shear process, such that the average particle size of the one or more modified proteins and/or peptides is reduced relative to the starting protein. The present disclosure further relates to methods for protecting a hydrophobic material from oxidative degradation, for improving the oxidative stability of a hydrophobic material, for reducing the surface free fat of a microencapsulated composition, and to stable emulsions and composition comprising a hydrophobic material

The present disclosure relates to microencapsulated compositions comprising one or more hydrophobic materials encapsulated by an encapsulant, wherein the encapsulant comprises one or more modified proteins and/or peptides; and wherein the one or more modified proteins and/or peptides are obtained from a starting protein by subjecting the starting protein to a high shear process, such that the average particle size of the one or more modified proteins and/or peptides is reduced relative to the starting protein. The present disclosure further relates to methods for protecting a hydrophobic material from oxidative degradation, for improving the oxidative stability of a hydrophobic material, for reducing the surface free fat of a microencapsulated composition, and to stable emulsions and composition comprising a hydrophobic material

The present invention relates to a casein concentrate wherein the milk protein comprises not more than 10% serum protein, and wherein the casein micelles have an average size of less than 175 nm in diameter; and wherein the concentrate has a pH below 6,7. Treating milk so as to shift the equilibrium out of the casein micelles and towards the serum phase modifies the micelles so as to allow increased water binding by the casein concentrate. High shear processing also allows for the increased water binding in the milk product, such as cheese. The invention further relates to a process of preparing a modified casein concentrate comprising the steps of treating milk by microfiltration to produce a microfiltration retentate comprising casein micelles and a reduced amount of serum proteins compared to the starting milk, adding an agent capable of modifying the chemical equilibrium between the calcium bound in the casein micelles and present in the serum phase treating the resulting product in a dynamic high pressure shear process. Finally, the invention provides cheese and dairy products which can be prepared by using the casein concentrate of the invention.

The present invention relates to a casein concentrate wherein the milk protein comprises not more than 10% serum protein, and wherein the casein micelles have an average size of less than 175 nm in diameter; and wherein the concentrate has a pH below 6,7. Treating milk so as to shift the equilibrium out of the casein micelles and towards the serum phase modifies the micelles so as to allow increased water binding by the casein concentrate. High shear processing also allows for the increased water binding in the milk product, such as cheese. The invention further relates to a process of preparing a modified casein concentrate comprising the steps of treating milk by microfiltration to produce a microfiltration retentate comprising casein micelles and a reduced amount of serum proteins compared to the starting milk, adding an agent capable of modifying the chemical equilibrium between the calcium bound in the casein micelles and present in the serum phase treating the resulting product in a dynamic high pressure shear process. Finally, the invention provides cheese and dairy products which can be prepared by using the casein concentrate of the invention.

A food or beverage product with improved texture and mouthfeel. The food or beverage product includes aggregated proteins comprising micellar casein and whey protein aggregates. The product has a pH of 6.1-7.1, a concentration of 6-40 wt. % milk solids, a casein to whey protein ratio of 90/10-60/40, and a concentration of 3-8 mM free divalent cations. The agglomerates have a size of 5-50 microns mean diameter D(4,3) as measured by laser diffraction.

A concentrate, system and low-temperature process for preparing a shelf-stable milk concentrate that does not require ultra-high temperature thermal processing for control of the microbiology of the product is disclosed herein. The method preferably incorporates aseptic technology and the enzymatic reduction of lactose to control water activity. The method preferably includes the enzymatic conversion of the lactose in the milk to its component sugars glucose and galactose, which preferably changes the colligative properties of the concentrate, decreases the amount of free water, and reduces the osmolarity.

A concentrate, system and low-temperature process for preparing a shelf-stable milk concentrate that does not require ultra-high temperature thermal processing for control of the microbiology of the product is disclosed herein. The method preferably incorporates aseptic technology and the enzymatic reduction of lactose to control water activity. The method preferably includes the enzymatic conversion of the lactose in the milk to its component sugars glucose and galactose, which preferably changes the colligative properties of the concentrate, decreases the amount of free water, and reduces the osmolarity.