The present invention relates to a method of producing a dairy product comprising galacto-oligosaccharides (GOS) where a milk-based substrate is incubated with a Bifidobacterium de-rived beta-galactosidase having transgalactosylating activity and the beta-galactosidase is heat inactivated.

A dairy-based yogurt product having a protein level above 15%, sometimes more than 25%, with a smooth and rich texture and no grittiness. The yogurt product includes a particular selection of dairy proteins and other ingredients to raise the gelation temperature of the dairy proteins and avoid causing gelation or precipitation during pasteurization. Additionally, pasteurization temperatures, times and methods are selected to avoid gelation. Starting dairy proteins generally have relatively higher pH levels and low total acidity (TA) levels to help reduce gelation during pasteurization. Ingredients such as buffering agents and sequestering agents may be utilized to help raise the gelation temperature, as well as higher sugar levels which can control hydration of the proteins.

This disclosure features human milk permeates and compositions containing the same obtained from fractionated whole human milk. The oligosaccharide rich permeate and permeate compositions of the present invention are useful as nutritional supplements for pre-term and full term infants, for establishing or maintaining gut flora and for treating the symptoms of inflammatory bowel disease.

A non-acidified fermented dairy product and a preparation method thereof are provided, relating to the technical field of fermented dairy products processing. The preparation method of the non-acidified fermented dairy product includes: inoculating a fermentation inoculum into cow milk, and performing a two-stage fermentation to obtain the non-acidified fermented milk; wherein the two-stage fermentation comprises a first-stage fermentation and a second-stage fermentation; a rotation speed of the first-stage fermentation is 180-250 revolutions per minute, and a duration is 10-20 hours; a rotation speed of the second-stage fermentation is 100-160 revolutions per minute, and a duration is 8-16 hours.

The disclosure provides a simple and effective methods for sterilization of milk without degradation or loss of biologically active agents in the milk and the products produced by such methods.

The disclosure provides a simple and effective methods for sterilization of milk without degradation or loss of biologically active agents in the milk and the products produced by such methods.

A high-protein milk raw material having a good flavor is provided. The liquid high-protein milk raw material of the present invention can be produced by preparing a milk fluid from the milk raw material and subjecting the milk fluid to treatment in contact with activated carbon.

A high-protein milk raw material having a good flavor is provided. The liquid high-protein milk raw material of the present invention can be produced by preparing a milk fluid from the milk raw material and subjecting the milk fluid to treatment in contact with activated carbon.

A method for determining values of processing variables relating to processing steps in a cheese vat arrangement of a processing line for producing cheese. By a control device, obtaining a target moisture content value of the cheese, milk properties comprising pH, protein content, and fat content of milk fed into the cheese vat arrangement, obtaining, coagulant properties comprising type and amount of a coagulant fed into the cheese vat arrangement, obtaining, starter properties comprising type and amount of a starter culture fed into the cheese arrangement, then feeding the target moisture content value, the milk properties, the coagulant properties, and the starter properties into an artificial intelligence (AI) model, and in response, obtaining predictions in the form of values of the processing variables from the AI model comprising at least one number of cuts and at least one cooking time used in the cheese vat arrangement during cheese production.

An infant formula milk powder is rich in milk fat globule membrane protein, phospholipids, and oligosaccharides. A preparation method includes using raw cow milk as raw material, cleaning and pre-sterilizing raw cow milk, adding MFGM-rich whey protein powder, -lactalbumin powder, galactooligosaccharides, polyfructoses and other ingredients into the pre-sterilized raw cow milk, and performing pre-sterilization, homogenization, sterilization, concentration, and spray drying. By means of formula adjustment, the contents of biologically active substances having special functional components such as MFGM-protein, lactoferrin, -lactalbumin, total galactooligosaccharide, total polyfructose, sialic acid, total phospholipid, sphingomyelin, lecithin, phosphatidylserine, phosphatidylethanolamines, phosphatidylinositol, ganglioside, triglyceride and diglyceride in the infant formula milk powder are increased, thereby facilitating the colonization of probiotics in the intestinal microbiota of an infant, especially significantly enriching lactic acid bacteria in an intestinal tract, while reducing unclassified bacterial family and other miscellaneous bacteria.