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.

It is provided i) an amorphous carbohydrate with improved chemical stability and/or physical features, ii) a method for producing an amorphous carbohydrate with improved chemical stability and/or physical features, and iii) a method for improving the chemical stability and/or the physical features of an amorphous carbohydrate.

In some examples, a system may be configured to generating flour having a uniform particle size of less than 100 Microns from whole insects. For example, the may include generating a slurry from whole insects by adding water while blending the whole insects using one or more mixers to generate an insect slurry. In some cases, the water is added to the insect parts to reduce the viscosity and to assist in separating the whole insects into parts. In some cases, the insect slurry may be filtered.

In some examples, a system may be configured to generating flour having a uniform particle size of less than 100 Microns from whole insects. For example, the may include generating a slurry from whole insects by adding water while blending the whole insects using one or more mixers to generate an insect slurry. In some cases, the water is added to the insect parts to reduce the viscosity and to assist in separating the whole insects into parts. In some cases, the insect slurry may be filtered.

It is provided i) an amorphous carbohydrate with improved chemical stability and/or physical features, ii) a method for producing an amorphous carbohydrate with improved chemical stability and/or physical features, and iii) a method for improving the chemical stability and/or the physical features of an amorphous carbohydrate.

The present invention is directed to a heat sterilized spoonable nutritional 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, wherein the nutritional composition is a liquid or semi-liquid composition having a viscosity of between 400 and 4000 mPa.Math.s at 20 C. measured at a shear rate of 100 s.sup.1. The inventive heat sterilized spoonable nutritional 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 spoonable nutritional 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 an indirect UHT heat treatment step; (v) Optionally performing a homogenization treatment step, wherein following steps (i) to (v) a heat sterilized spoonable nutritional composition is obtained having a viscosity of between 400 and 4000 mPa.Math.s at 20 C. measured at a shear rate of 100 s.sup.1. 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 a spoonable nutritional composition and/or for controlling the viscosity of a liquid or semi-liquid spoonable nutritional composition, wherein the spoonable nutritional composition comprises 12 to 20 weight % total protein. The invention also concerns medical uses and treatments applying or using the inventive heat sterilized spoonable nutritional composition.

The present invention is directed to a heat sterilized spoonable nutritional 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, wherein the nutritional composition is a liquid or semi-liquid composition having a viscosity of between 400 and 4000 mPa.Math.s at 20 C. measured at a shear rate of 100 s.sup.1. The inventive heat sterilized spoonable nutritional 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 spoonable nutritional 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 an indirect UHT heat treatment step; (v) Optionally performing a homogenization treatment step, wherein following steps (i) to (v) a heat sterilized spoonable nutritional composition is obtained having a viscosity of between 400 and 4000 mPa.Math.s at 20 C. measured at a shear rate of 100 s.sup.1. 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 a spoonable nutritional composition and/or for controlling the viscosity of a liquid or semi-liquid spoonable nutritional composition, wherein the spoonable nutritional composition comprises 12 to 20 weight % total protein. The invention also concerns medical uses and treatments applying or using the inventive heat sterilized spoonable nutritional composition.

A method for producing a nutritional composition comprising the steps: (a) providing a solution comprising at least one mineral for a nutritional composition; (b) adding at least one potato protein to the solution of step (a); (c) adding at least one carbohydrate and/or at least one fat to the solution of step (b); and (d) spray drying the solution of step (c).

A method for producing a nutritional composition comprising the steps: (a) providing a solution comprising at least one mineral for a nutritional composition; (b) adding at least one potato protein to the solution of step (a); (c) adding at least one carbohydrate and/or at least one fat to the solution of step (b); and (d) spray drying the solution of step (c).

Processing of liquid food (102) in a system (100) is disclosed. The liquid food (102) is provided from a balance tank (104) to a heat treatment unit 106. The heat treating unit (106) receives and heat treats the liquid food (102) to provide heat treated liquid food (102a). A filter (108) receives and filters the heat treated liquid food (102a) to provide filtered, heat treated liquid food (102b). A packaging device (110) receives and packages the filtered heat treated liquid food (102b). Filtering of the liquid food (102) takes place on a heat treated side of the system (100), as close as possible to the packaging device (110).