Process for the preparation of a powder comprising bio active molecules, said process comprising the steps of (i) providing a liquid composition comprising bio active molecules, (ii) optionally pre-heating said liquid composition, provided that the temperature of the liquid composition does not exceed 65° C., (iii) transporting the optionally pre-heated liquid composition to the top of a spray drying tower via a tower feeding line, (iv) raising the temperature of the optionally pre-heated liquid composition using a direct electric volumetric heater located within the tower feeding line, the final temperature of the liquid composition being in the range 60-90° C., followed by (v) transporting the resulting liquid composition via the tower feeding line to the atomizer of a spray-dryer.

A process for preparing a particulate dairy composition is provided, which comprises (a) combining condensed skimmed milk, sucrose, milk cream and milk powder to prepare a pre-emulsion containing 46-66 wt. % dry matter; (b) homogenizing the pre-emulsion; (c) spray drying the emulsion to produce a semi-dried powder having a water content of at least 5 wt. % water; and (d) agglomerating and further drying the semi-dried powder to produce agglomerates having a water content of less than 5 wt. % water. The process yields a particulate dairy composition that is particularly suitable for use in creamer capsules. Particulate dairy compositions are also disclosed, comprising (A) 77.5-100 wt. % of agglomerates containing, calculated by dry weight of the agglomerates: (i) 15-29 wt. % of milk protein; (ii) 8-33 wt. % of milk fat; (iii) 18-47 wt. % of lactose; and (iv) 7-18 wt. % of sucrose; and (B) 0-22.5 wt. % of sucrose particles, wherein the composition has a poured bulk density of 380-550 g/l.

A process for preparing a particulate dairy composition is provided, which comprises (a) combining condensed skimmed milk, sucrose, milk cream and milk powder to prepare a pre-emulsion containing 46-66 wt. % dry matter; (b) homogenizing the pre-emulsion; (c) spray drying the emulsion to produce a semi-dried powder having a water content of at least 5 wt. % water; and (d) agglomerating and further drying the semi-dried powder to produce agglomerates having a water content of less than 5 wt. % water. The process yields a particulate dairy composition that is particularly suitable for use in creamer capsules. Particulate dairy compositions are also disclosed, comprising (A) 77.5-100 wt. % of agglomerates containing, calculated by dry weight of the agglomerates: (i) 15-29 wt. % of milk protein; (ii) 8-33 wt. % of milk fat; (iii) 18-47 wt. % of lactose; and (iv) 7-18 wt. % of sucrose; and (B) 0-22.5 wt. % of sucrose particles, wherein the composition has a poured bulk density of 380-550 g/l.

A low-bacteria milk powder with a WPNI of at least 2 is suggested, obtainable by (a) providing a milk component; (b) optionally, separating the cream from the milk component; (c) subjecting the milk component from which the cream had been optionally separated to microfiltration, obtaining a low-bacteria permeate P1 and a bacteria-contaminated retentate R1; (d) mixing the permeate with a liquid lipid phase and a solid active agent phase; (e) optionally, subjecting the mixture obtained in step (d) to a temperature treatment; and (f) processing the mixture of step (d) or (e) that had optionally been temperature-treated, obtaining a dry powder.

A low-bacteria milk powder with a WPNI of at least 2 is suggested, obtainable by (a) providing a milk component; (b) optionally, separating the cream from the milk component; (c) subjecting the milk component from which the cream had been optionally separated to microfiltration, obtaining a low-bacteria permeate P1 and a bacteria-contaminated retentate R1; (d) mixing the permeate with a liquid lipid phase and a solid active agent phase; (e) optionally, subjecting the mixture obtained in step (d) to a temperature treatment; and (f) processing the mixture of step (d) or (e) that had optionally been temperature-treated, obtaining a dry powder.

The present invention provides a composition for debittering hydrolyzed proteins and a product, preparation and use thereof. The composition comprises a short chain fatty acid, a medium chain fatty acid and a long chain fatty acid, wherein, based on total mass of the short chain fatty acid, the medium chain fatty acid and the long chain fatty acid which is 100%, the medium chain fatty acid is present in an amount of 0.2-4.7%, the long chain fatty acid is present in an amount of 95.1-99.4%, and the remaining is the short chain fatty acid. The present invention can effectively reduce the bitter taste of hydrolyzed proteins and is widely used.

The present invention provides a composition for debittering hydrolyzed proteins and a product, preparation and use thereof. The composition comprises a short chain fatty acid, a medium chain fatty acid and a long chain fatty acid, wherein, based on total mass of the short chain fatty acid, the medium chain fatty acid and the long chain fatty acid which is 100%, the medium chain fatty acid is present in an amount of 0.2-4.7%, the long chain fatty acid is present in an amount of 95.1-99.4%, and the remaining is the short chain fatty acid. The present invention can effectively reduce the bitter taste of hydrolyzed proteins and is widely used.

The present invention provides a novel process for preparing fortified milk compositions from whole mammalian milk. The process of the present invention generally involves converting dried mammalian milk into a fats-enriched fraction, a protein-enriched fraction, and a carbohydrate-enriched fraction. The process comprises treating the dried milk with a fats extracting agent to provide a fats-enriched fraction, and a residual fraction comprising proteins and carbohydrates; separating said fats-enriched fraction from the residual fraction; and removing the fats extracting agent from the separated fats-enriched fraction to produce a dry fraction of oily, fats-enriched material and a fraction enriched in proteins and carbohydrates.

The present invention provides a novel process for preparing fortified milk compositions from whole mammalian milk. The process of the present invention generally involves converting dried mammalian milk into a fats-enriched fraction, a protein-enriched fraction, and a carbohydrate-enriched fraction. The process comprises treating the dried milk with a fats extracting agent to provide a fats-enriched fraction, and a residual fraction comprising proteins and carbohydrates; separating said fats-enriched fraction from the residual fraction; and removing the fats extracting agent from the separated fats-enriched fraction to produce a dry fraction of oily, fats-enriched material and a fraction enriched in proteins and carbohydrates.

A milk food product is provided that when mixed with baby food and given regularly to a baby will reduce the likelihood of the baby developing a food allergy. The milk food product is produced by taking milk and mixing or whipping the milk with other ingredients such as rice, tapioca, wheat, corn, nut flours, soy flour, or bean flour. The resulting batter is then baked in order to produce a cake-like product. The resulting cake is then dried in order to remove substantially all moisture. The dried cake is then ground or milled into a powder.