Food products and systems and methods for their production involve microfiltration (MF) of fluid skim to form a MF retentate, combining the MF retentate with cream and subjecting the combination to ultrafiltration (UF) to form a UF retentate. Prior to UF, the composition is formed of non-acidified components. Following UF, the UF retentate is acidified and forms a food product including a high solids content. The solids content may be further increased using evaporation. The resulting cheese or cheese base contains a lower whey protein ratio in a fat:casein:whey protein ratio compared to systems and methods that do not employ MF.

Food products and systems and methods for their production involve microfiltration (MF) of fluid skim to form a MF retentate, combining the MF retentate with cream and subjecting the combination to ultrafiltration (UF) to form a UF retentate. Prior to UF, the composition is formed of non-acidified components. Following UF, the UF retentate is acidified and forms a food product including a high solids content. The solids content may be further increased using evaporation. The resulting cheese or cheese base contains a lower whey protein ratio in a fat:casein:whey protein ratio compared to systems and methods that do not employ MF.

Food products and systems and methods for their production involve microfiltration (MF) of fluid skim to form a MF retentate, combining the MF retentate with cream and subjecting the combination to ultrafiltration (UF) to form a UF retentate. Prior to UF, the composition is formed of non-acidified components. Following UF, the UF retentate is acidified and forms a food product including a high solids content. The solids content may be further increased using evaporation. The resulting cheese or cheese base contains a lower whey protein ratio in a fat:casein:whey protein ratio compared to systems and methods that do not employ MF.

Food products and systems and methods for their production involve microfiltration (MF) of fluid skim to form a MF retentate, combining the MF retentate with cream and subjecting the combination to ultrafiltration (UF) to form a UF retentate. Prior to UF, the composition is formed of non-acidified components. Following UF, the UF retentate is acidified and forms a food product including a high solids content. The solids content may be further increased using evaporation. The resulting cheese or cheese base contains a lower whey protein ratio in a fat:casein:whey protein ratio compared to systems and methods that do not employ MF.

The invention pertains to whey-bound fresh cheese such as cream cheese, and the stabilization thereof using granular starch and an amylomaltase-treated starch and/or an emulsifier, and to methods of making such fresh cheeses. Whey-bound fresh cheeses with these additional ingredients display increased stability, which makes them suitable for application in heated food products. In addition, the invention is directed to food products comprising such whey-bound fresh cheeses, as well to methods of making these food products, and to use of a granular starch and amylomaltase-treated starch for the stabilization of a whey-bound fresh cheese.

The present invention relates to a method for the manufacture of a cream cheese, the method comprising: (i) providing a first dairy liquid; (ii) fermenting the first dairy liquid to form a first acidified dairy liquid; (iii) providing a second dairy liquid; (iv) acidifying the second dairy liquid with citric acid to form a second acidified dairy liquid; (v) combining the first acidified dairy liquid and the second acidified dairy liquid to form a cream cheese.

The present invention relates to a method for the manufacture of a cream cheese, the method comprising: (i) providing a first dairy liquid; (ii) fermenting the first dairy liquid to form a first acidified dairy liquid; (iii) providing a second dairy liquid; (iv) acidifying the second dairy liquid with citric acid to form a second acidified dairy liquid; (v) combining the first acidified dairy liquid and the second acidified dairy liquid to form a cream cheese.

A low-mineral quark matrix is suggested, which is obtainable by (a) subjecting raw milk to heat treatment, separating the cream, (b) subjecting the skimmed milk such obtained to an ultrafiltration step and/or a reverse osmosis step, producing a retentate R1, which represents a dairy protein concentrate, and a permeate P1, (c) subjecting the permeate P1 to an electrodialysis step, producing a salt-depleted diluate D1, (d) combining the diluate D1 with the retentate R1, (e) subjecting the combination product such obtained to heat treatment until denaturation sets in, (f) fermenting the denaturation product such obtained by the addition of starter cultures and rennet, and (g) adjusting or standardising the fermentation product such obtained to defined dry matter and protein contents.

A process for manufacturing semi-hard cheese, wherein skimmed milk enriched in fat and proteins, but depleted in lactose is subjected to coagulation without the need for pre-drainage of whey and any washing operations.

A process for manufacturing semi-hard cheese, wherein skimmed milk enriched in fat and proteins, but depleted in lactose is subjected to coagulation without the need for pre-drainage of whey and any washing operations.