The methods and products disclosed herein relate to high solids concentrated dairy liquids that remain retort and shelf stable for an extended shelf life at ambient conditions with substantially no negative flavor notes typically found in the prior retorted dairy liquids. In one aspect, the stable concentrated dairy liquids have up to about 50 percent total solids, and in some approaches, between about 38 and about 50 percent total solids. In another aspect, the high solids concentrated dairy liquids may also include increased levels of sugar relative to the dairy solids and/or increased levels of sugar relative to the protein and fat to aid in achieving stability.

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 current invention relates to a method for producing emulsions using a layer multiplayer comprising the steps of: providing at least two immiscible fluid streams, combining said immiscible fluid streams to a focused total fluid stream, and subsequently carrying out baker's transformations on said total fluid stream, said baker's transformation comprises: (i) stretching and cutting said total fluid stream; (ii) recombining said total fluid stream. The present invention further relates to the use of said method for food grade, polymer, cosmetic and pharmaceutical products. The present invention further relates to said food grade, polymer, cosmetic and pharmaceutical products.

The present invention relates to a method for producing buttermilk, comprising the steps of: providing raw cream having a fat content in the range of about 35% w/w to about 60% w/w; washing the raw cream with a washing liquid to provide a solution of the raw cream and the washing liquid; separating the washing liquid from the solution to provide washed cream with a reduced non-fat dry matter content; churning the washed cream to provide buttermilk having a content of phospholipids of at least 3% based on dry matter content, specifically at least 3.8%, more specifically at least 5.0%.

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.

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.

A high protein food may be produced via an extrusion process whereby acid casein is mixed with whey protein, alkali and water. Upon exiting the extruder, the mixture may be cut, dried, and/or tempered, milled and screened before being further processed or packaged. The final product may be configured as a crisp high protein food or a powdered high protein food. The protein content of the end product may be approximately 90-95% on a dry weight basis.

The present invention relates to a beverage having excellent photodegradation resistance. More particularly, the present invention relates to a photodegradation resistant beverage comprising a fat-free milk solid content and fat content, the fat content comprising not less than 70% by mass vegetable fat and oil, and the vegetable fat and oil is selected from the group consisting of coconut oil, sunflower oil and a mixture thereof.

A food composition for alleviating hangovers, the food composition contains, as an active ingredient, at least one strain selected from the group consisting of Lactococcus chungangensis, Lactococcus fujiensis, Lactococcus lactis subsp. cremoris, Lactococcus lactis subsp. lactis, and Lactococcus raffinolactis, or a culture liquid thereof culture medium, wherein functional cream cheese is prepared using five species of Lactococcus strains above having the ability to decompose ethanol and acetaldehyde.

This invention relates to live cell constructs for in vitro and/or ex vivo production of cultured milk products from mammary cells, methods of producing isolated cultured milk products from mammary cells, bioreactors for producing isolated cultured milk products, and cultured milk products.