Food Biochemistry and Food Processing (2 edition)

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BLBS102-c25 BLBS102-Simpson March 21, 2012 13:23 Trim: 276mm X 219mm Printer Name: Yet to Come


466 Part 4: Milk

particles known as casein micelles, with an average diameter of
approximately 150 nm (range 50–600 nm) and containing, on
average, approximately 5000 protein molecules.
Owing to its physical state, milk is an unstable system. The
fat globules, which are less dense than the aqueous phase, rise
to the surface where they form a cream layer. The fat-rich cream
can be skimmed off and used for the manufacture of butter,
butter oil, ghee or other fat-rich products. Alternatively, the fat-
depleted lower layer (skimmed milk) may be run off, for example
through a valve at the bottom of a separating vat. The skimmed
milk may be consumed directly as a beverage or used for the
manufacture of a wide range of products. Gravity creaming and
butter manufacture have been used since prehistoric times, but
gravity creaming has been largely replaced by centrifugal sep-
aration of the fat since the development of the cream separator
by Gustav de Laval in 1878. Gravity separation is still used to
prepare reduced-fat milk for the manufacture of Parmigiano-
Reggiano cheese. The physics of fat separation by gravity or
centrifugal separation and the process of demulsifying milk fat
to butter or butter oil will be described briefly later in this chapter.
Creaming (fat separation) is undesirable in many dairy prod-
ucts (e.g., liquid/beverage milk, concentrated milks) and is pre-
vented by a process known as homogenisation (the commonly
used valve homogeniser was developed by Auguste Gaulin in
1899). Homogenisation prevents creaming by reducing the size
of the fat globules and preventing their agglomeration (cluster-

ing), by denaturing a particular minor protein known as cryo-
globulin (type M immunoglobulin).
The casein micelles are physicochemically stable but can be
destabilised by a number of processes/treatments, which are ex-
ploited for the production of new dairy products. The most im-
portant of these are limited proteolysis and acidification, which
are used in the production of cheese, fermented milks and func-
tional milk proteins. The mechanism and consequences of pro-
teolysis and acidification will be described briefly. Thus, the
three main constituents/phases of milk, that is fat, casein and the
aqueous solution (whey), can be separated easily.
Milk is remarkably heat stable; it can be sterilised by heat
in standard or concentrated form, or dried to produce a wide
range of dairy products. The principal processes and the re-
sulting product families are summarised in Table 25.1. All
these families of dairy products contain many products, for
example approximately 1400 varieties of cheese are produced
worldwide.
In addition to the above considerations, milk is a rich medium
for the growth of a wide range of microorganisms. While this
is exploited in the production of a range of fermented dairy
products, it also means that milk can harbour microorganisms
that may cause spoilage of products, or present health risks to
the consumer. Largely for the latter reason, very little raw milk is
now consumed, the vast majority being heat treated sufficiently
severe to kill all pathogenic and food-poisoning bacteria.

Table 25.1.Diversity of Dairy Products Produced by Different Processes

Process Primary (italic) and Secondary Products

Heat treatment (generally with
homogenisation)

Market milk

Centrifugal separation Standardised milk
Cream
Butter, butter oil, ghee
Creams of various fat content (pasteurised or UHT treated); whipping, coffee,
dessert creams
Skim milk
Skim milk powder, casein, cheese, protein concentrates
Concentration (e.g., evaporation or
membrane separation)

In-container or UHT-sterilised concentrated milks, sweetened condensed milk

Concentration and drying Whole milk powders, infant formulae
Enzymatic coagulation Cheese
Numerous varieties, processed cheese, cheese sauces and dips
Rennet casein; cheese analogues
Whey
Whey powders; demineralised whey powders; whey protein concentrates;
fractionated whey proteins; whey protein hydrolysates; lactose and lactose
derivatives
Acid coagulation Cheese (fresh)
Acid casein; functional proteins
Whey(as rennet whey)
Fermentation Various fermented milk products, e.g., yoghurt, buttermilk, acidophilus milk,
bioyoghurt
Freezing, aeration and whipping Ice cream

Source: Adapted From Fox and McSweeney 1998.
UHT, ultra-high temperature.
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