A process comprises concentrating a whey composition to at least about 75 weight % solids in one or more evaporators connected in series to form a concentrated whey composition, wherein at least one of the evaporators comprises an evaporator configured to agitate the whey composition within the at least one evaporator, crystallizing at least a portion of the lactose in the concentrated whey composition in a crystallization cascade comprising one or more crystallizing stages to form an at least partially-crystallized whey composition and drying the at least partially-crystallized whey composition to form a dried whey product.

A milk protein concentrate is suggested, obtainable or obtained by: (i) skimming the cream from raw milk, obtaining a skimmed milk fraction having a dry matter content of about 5 to about 15% by weight, and particularly about 10% by weight; (ii) concentrating the skimmed milk fraction of step (i) to a dry matter content of about 45 to about 60% by weight; (iii) standardising the skimmed milk concentrate of step (ii) by adding a milk fraction; and (iv) drying the standardised skimmed milk concentrate to a powder having a dry matter content of at least 95% by weight,
with the proviso that a milk permeate is employed for standardisation, which was previously subjected to electrodialysis.

A system and method for the continuous production of brown butter involves concentrating butter while retaining solids non-fat in the butter, and continuously transferring and heating the concentrated butter to cause the solids non-fat in the butter to react in a maillard reaction to form a brown butter product. The system may use one or more of a heating vessel, an evaporator and a reaction vessel to form the brown butter in the continuous process. A brown butter product derived from butter includes reacted solids non-fat particulates from a maillard reaction suspended by nascent fat crystals nucleated about the reacted solids non-fat particulates and by large fat crystal structures joined to the nascent fat crystals.

A system and method for the continuous production of brown butter involves concentrating butter while retaining solids non-fat in the butter, and continuously transferring and heating the concentrated butter to cause the solids non-fat in the butter to react in a maillard reaction to form a brown butter product. The system may use one or more of a heating vessel, an evaporator and a reaction vessel to form the brown butter in the continuous process. A brown butter product derived from butter includes reacted solids non-fat particulates from a maillard reaction suspended by nascent fat crystals nucleated about the reacted solids non-fat particulates and by large fat crystal structures joined to the nascent fat crystals.

The invention relates to pasteurized ready-to-drink refrigerated fresh milks based on evaporation of raw cow's milk, making said milk products notably thicker, creamier, richer in taste, and more nutrient dense.

The invention also relates to a method for preparing said milks.

It is generally assumed that fresh milk fat is one of the most important constituents in contributing to the desirable flavor of fresh milk, and little attention has been given to the contribution of SNF to fresh milk's flavor.

The richness and creaminess of fresh milk based on evaporation of raw milk as described in the prevent invention, is the result of the significant increase in SNF obtained by the removal of water.

The invention relates to pasteurized ready-to-drink refrigerated fresh milks based on evaporation of raw cow's milk, making said milk products notably thicker, creamier, richer in taste, and more nutrient dense.

The invention also relates to a method for preparing said milks.

It is generally assumed that fresh milk fat is one of the most important constituents in contributing to the desirable flavor of fresh milk, and little attention has been given to the contribution of SNF to fresh milk's flavor.

The richness and creaminess of fresh milk based on evaporation of raw milk as described in the prevent invention, is the result of the significant increase in SNF obtained by the removal of water.

Methods of making a powdered milk product as described. The methods may include providing an aqueous milk-sourced mixture, and evaporating water from the aqueous milk-sourced mixture to produce an evaporated milk-sourced mixture having a total solids concentration of 35 wt. % or more. The evaporated milk-sourced mixture may be dried to form the powdered milk product, which may have less than 6 wt. % water. Systems for making the milk powdered product are also described. The systems may include an evaporator to evaporate water from a supply of a milk-sourced mixture to form an evaporated milk-sourced mixture. They may also include a dryer to dry the evaporated milk-sourced mixture and atomize it into the powdered milk product.

Methods of making a powdered milk product as described. The methods may include providing an aqueous milk-sourced mixture, and evaporating water from the aqueous milk-sourced mixture to produce an evaporated milk-sourced mixture having a total solids concentration of 35 wt. % or more. The evaporated milk-sourced mixture may be dried to form the powdered milk product, which may have less than 6 wt. % water. Systems for making the milk powdered product are also described. The systems may include an evaporator to evaporate water from a supply of a milk-sourced mixture to form an evaporated milk-sourced mixture. They may also include a dryer to dry the evaporated milk-sourced mixture and atomize it into the powdered milk product.

A method of making a fortified dairy product includes concentrating an amount of fruit juice and an amount of camel milk to obtain an amount of concentrated camel milk and an amount of concentrated fruit juice. The concentrated camel milk and the concentrated fruit juice can be heated and blended to produce a mixture. The mixture can then be spray dried to produce the fortified dairy product. The fortified dairy product can be a homogenous powder having a pH level ranging from about pH 4.5 to about pH 7.0.

A method of making a fortified dairy product includes concentrating an amount of fruit juice and an amount of camel milk to obtain an amount of concentrated camel milk and an amount of concentrated fruit juice. The concentrated camel milk and the concentrated fruit juice can be heated and blended to produce a mixture. The mixture can then be spray dried to produce the fortified dairy product. The fortified dairy product can be a homogenous powder having a pH level ranging from about pH 4.5 to about pH 7.0.