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Lactose dried milk

The ratio of a-lactose [10039-26-6] and P-lactose in dry milk and whey varies according to the speed and temperature of drying. An aqueous solution at equiHbrium at 25°C contains 35% a- and 63% -lactose. The latter is more soluble and sweeter than DL-lactose and is obtained by heating an 80% DL-lactose [63-42-3] solution above 93.5°C, foUowed by drying on a dmm or roUer dryer. Lactose is used for foods and pharmaceutical products. [Pg.370]

Lactose glass. When a lactose solution is dried rapidly, viscosity increases so quickly that crystallization is impossible. A noncrystalline form is produced containing a- and /J-forms in the ratio at which they exist in solution. Lactose in spray-dried milk exists as a concentrated syrup or amorphous glass which is stable if protected from air, but is very hygroscopic and absorbs water rapidly from the atmosphere, becoming sticky. [Pg.43]

Dried milk and whey. Lactose is the major component of dried milk products whole-milk powder, skim-milk powder and whey powder contain c. 30, 50 and 70% lactose, respectively. Protein, fat and air are dispersed in a continuous phase of amorphous solid lactose. Consequently, the behaviour of lactose has a major impact on the properties of dried milk products. [Pg.43]

Raw milk is a unique agricultural commodity. It contains emulsified globular lipids and colloidally dispersed proteins that may be easily modified, concentrated, or separated in relatively pure form from lactose and various salts that are in true solution. With these physical-chemical properties, an array of milk products and dairy-derived functional food ingredients has been developed and manufactured. Some, like cheese, butter, and certain fermented dairy foods, were developed in antiquity. Other dairy foods, like nonfat dry milk, ice cream, casein, and whey derivatives, are relatively recent products of science and technology. This chapter describes and explains the composition of traditional milk products, as well as that of some of the more recently developed or modified milk products designed to be competitive in the modern food industry. [Pg.39]

Cultured buttermilk is manufactured by fermenting whole milk, reconstituted nonfat dry milk, partly skimmed milk, or skim milk with lactic acid bacteria. Most commercial cultured buttermilk is made from skim milk. Mixed strains of lactic streptococci are used to produce lactic acid and leuconostocs for development of the characteristic diacetyl flavor and aroma. Buttermilk is similar to skim milk in composition, except that it contains about 0.9% total acid expressed as lactic acid. The percentage of lactose normally found in skim milk is reduced in proportion to the percentage of lactic acid in the buttermilk. According to White (1978), the fat content of buttermilk usually varies from 1 to 1.8%, sometimes in the form of small flakes or granules to simulate churned buttermilk, the by-product of butter churning. Usually 0.1% salt is added. [Pg.46]

When a lactose solution is dried rapidly, its viscosity increases so quickly that crystallization cannot take place. The dry lactose is essentially in the same condition as it was in solution, except for removal of the water. This is spoken of as a concentrated syrup or an amorphous (noncrystalline) glass. Various workers have shown conclusively that lactose in milk powder (spray, roller, or freeze-dried) is noncrystalline and exists in the same equilibrium mixture of a- and /3-lactose as existed in the milk prior to drying (Zadow 1984). [Pg.294]

Procedures based on rotation have been used for quantitative measurement of the amounts of a- and /3-lactose in fluid and dry milk products and in ice cream (Roetman (1981). [Pg.297]

Equations similar to those for mutarotation have been derived, expressing the relationship between the solubility behavior of the two forms of lactose and the equilibrium or rate constants (Hudson 1904). The constants derived by both mutarotation and solubility methods are in agreement. The solubility equations have been used to develop procedures for measuring a- and /3-lactose in dry milk (Roetman 1981). [Pg.300]

One of the earlier reviews (31 ) concerned the Maillard reaction in dried milk during storage. Spray-dried whey has considerable amounts of lactose and protein rich in lysine. Theoretical treatment of the problem in whey powder was the object of recent studies by Labuza and Saltmarch (106, 107). [Pg.13]

Our study also investigated the effect of water activity (a ) on the kinetics of the formation of pyrazines. water activity is defined as the ratio of partial pressure of water in a food to the vapor pressure of pure water at a given temperature. Nonfat dry milk (NFEM) was chosen as a model system for this study since NFEM and lactose/casein systems which had undergone nonenzymatic browning were found to contain pyrazines (21. 22). The current study investigates the effect of increasing product over the range of 0.32 to 0.85 on the rate of formation of pyrazines. [Pg.197]

The characteristic carbohydrate of milk is lactose or milk sugar. With a few minor exceptions, lactose is the only sugar in the milk of all species and does not occur elsewhere. Lactose is the major constituent of the dry matter of cow s milk, as it represents close to 50 percent of the total solids. The lactose content of cow s milk ranges from 4.4 to 5.2 percent, with an average of 4.8... [Pg.110]

Roos (1995) noted that the decrease in viscosity above Tg is responsible for various changes, such as stickiness and collapse of dried foods, agglomeration, and crystallization of food components (e.g., lactose in dried milk). In addition, the crispness of various low moisture foods is lost above Tg. Determination of Tg values as a function of solids or water content and water activity can be used to establish state... [Pg.20]

Ultrafiltration processing for whey proteins concentration and fractionation, for recovery of lactose from milk and whey, for total milk protein concentration for the production of milk protein concentrate (MFC) or nulk protein isolate (MPl), for milk standardization for continuous mechanized manufacture of cheese and other fermented products, and for production of high-solids milk base for dried milk production. [Pg.636]

Roetman, K. Crystalline lactose and the structure of spray-dried milk products as observed by scanning electron microscopy, Neth. Milk Dairy J., 33,1,1979. [Pg.581]

Riickold et al., 2000). This leads to greater or smaller discrepancies between the "official" results for moisture and the water content, depending essentially on the lactose content of the product. For the typical spray-dried milk such as full cream or skimmed milk powder these discrepancies are normally small as the lactose is in most cases amorphous. [Pg.633]

Five dried milk products with various compositions, all provided by Nestle, Vers-chez-les-Blanc, Lausanne, Switzerland, and a-lactose were analyzed ... [Pg.634]

See other pages where Lactose dried milk is mentioned: [Pg.45]    [Pg.191]    [Pg.191]    [Pg.224]    [Pg.315]    [Pg.69]    [Pg.45]    [Pg.45]    [Pg.361]    [Pg.39]    [Pg.294]    [Pg.309]    [Pg.311]    [Pg.311]    [Pg.314]    [Pg.327]    [Pg.691]    [Pg.749]    [Pg.761]    [Pg.142]    [Pg.451]    [Pg.456]    [Pg.344]    [Pg.116]    [Pg.574]    [Pg.574]    [Pg.577]    [Pg.632]    [Pg.121]    [Pg.80]    [Pg.81]   
See also in sourсe #XX -- [ Pg.294 , Pg.311 ]



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