Disclosed is a method for producing a fermented whey protein product with improved stability, which can be incorporated into liquids such as beverag,es, or foods such as solid or semi-solid foods. In foods such as protein bars, the fermented whey protein product can decrease hardening over time and improve shelf-life. Also disclosed is a method for producing hydrolyzed whey protein with improved flavor.

Disclosed is a method for producing agglomerated proteins, agglomerated protein powders, and instantized protein powders using at least one protein binder to form agglomerates of at least one target protein.

Disclosed is a method for producing agglomerated proteins, agglomerated protein powders, and instantized protein powders using at least one protein binder to form agglomerates of at least one target protein.

The present invention relates to a milk concentrate comprising caseins and whey proteins in the ratio of 90:10 to 60:40, wherein the caseins/whey protein aggregates have a volume based mean diameter value Dv50 of at least 1 μm as measured by laser diffraction. The invention also relates to a process for preparing a milk concentrate comprising the steps of providing a liquid milk concentrate, adjusting pH to 5.7-6.4, heat treating for 3-300 s at 80-150° C. and cooling to <70° C. Also, the use of the milk concentrate for producing a ready-to-drink beverage, culinary sauces and concentrated milk concentrates is described.

The present invention relates to a milk powder comprising caseins and whey proteins wherein the powder upon reconstitution in an aqueous medium comprises casein-whey protein/fat aggregates having a mean diameter value Dv50 of at least 1 mycrom as measured by laser diffraction. The invention also relates to a process for preparing a milk powder including the steps of providing a liquid milk concentrate at T<25° C., adjusting pH to 5.7-6.4, heating at 80-150° C. for 3-300 s, cooling to below 70° C. and optionally readjusting the pH to between 6.5-6.8, drying the composition, and the milk powder obtained by this process for producing growing up milks, culinary sauces, coffee mixes, tea and coffee creamer or cocoa-malt beverages.

The present invention relates to a method of producing an ideal whey protein concentrate. The whey protein concentrate has a pH in the range of 6.8-7.5 and 70-90% of the total proteins of the concentrate are whey proteins and 10-30% of the total proteins of the concentrate are caseins. The present invention relates also to an ideal whey protein concentrate and its uses in in reducing the total milk protein content and/or in increasing the whey protein content of a spoonable acidified milk product. In addition, the present invention relates to a method of producing a spoonable acidified milk product having high whey protein content but a reduced total milk protein content. The present invention relates also to a spoonable acidified milk product having high whey protein content but a reduced total milk protein content.

A spoonable fermented cream cheese composition with high protein content, of the quark or skyr type, intended for persons requiring increased intakes of proteins, such as sportspersons and elderly persons. The composition comprises at least 8% by weight proteins, with respect to the total weight of the composition, the proteins consisting of a mixture of casein and milk serum proteins in a weight ratio between 50/50 and 75/25, the milk serum proteins comprising at least 20% denatured serum proteins in the form of microparticles, by weight with respect to the total weight of the serum proteins, and in that the pH is less than or equal to 4.6.

The invention discloses a method for producing a deodorized goat/sheep milk, which method comprises purifying fresh goat/sheep milk or goat/sheep full cream, wherein the material is subjected to a carbon dioxide treatment during the purification, and the carbon dioxide treatment comprises: introducing carbon dioxide into the material, then refrigerating the material, and removing carbon dioxide. The producing method of the invention is simple, and has a good effect of removing muttony odor of goat/sheep milk. The present invention also discloses a deodorized goat/sheep milk and a deodorized goat/sheep milk product.

The invention relates to an arginine-rich food composition comprising 10-20% by weight of proteins based on the weight of the composition and having a low hardness, as measured with Test A defined herein, of 0.01 to 0.2 N, to its preparation process by mixing a leguminous protein source and a casein source, and also to the uses thereof, in particular in the food-processing field and most particularly the preparation of food formulations. The food composition preferably comprises a mixture of a leguminous protein source and a casein source. The leguminous protein source is preferably pea protein isolate.

The present invention relates to a method for separating at least one soluble protein fraction from an aggregated casein-containing material, the method comprises the steps of: (i) providing the aggregated casein-containing material; (ii) Contacting the aggregated casein-containing material with a chromatographic support allowing one or more soluble protein(s) present in the aggregated casein-containing material to be retained by the chromatographic support; (iii) Obtaining a permeate fraction from the chromatographic support comprising aggregated casein; (iv) Optionally washing the chromatographic support; (v) Subjecting the chromatographic support to at least one elution buffer obtaining at least one soluble protein fraction from the chromatographic support; and wherein the chromatographic support comprises one or more mixed-mode ligands capable of binding the soluble proteins from the aggregated casein-containing material.