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36 Valorization of By-Products of Milk Fat Processing
36.2
Processing of Milk Fat and Its By-Products
Raw milk received in the dairy plant is often standardized in terms of its fat and
solids not fat (SnF) content, to meet statutory guidelines. This requires the separa-
tion of cream from the received milk, and recombining the cream and skim milk in
pre-calculated proportions, resulting in a stock of cream with the dairy. The cream
is either directly or after a period under cold storage channeled to the process line
of other value-added products such as ice cream, butter, butter oil, ghee, etc. In pro-
cess of conversion of cream to butter or ghee, two major and potentially valuable
by-products, namely butter milk and ghee residue, respectively, are generated.
36.3
Valorization of Buttermilk
The churning of cream (oil-in-water emulsion) leads to formation of butter
(water-in-oil emulsion) through a process of controlled phase reversal. The aqueous
solution that is removed amid the process of cream churning (destabilization) dur-
ing butter preparation is referred to as butter milk. This aqueous solution is known
to contain the components of the cream, which majorly include water-soluble
components such as minerals, milk proteins and lactose and are more importantly
fragments of milk fat globule membrane (MFGM).
It is well established that the MFGM is a thin (∼15 nm) layer and is built of a
complex mixture of polar lipids (constituting 90% of dry weight) and proteins [1].
The polar lipids present in MFGM are primarily glycerophospholipids consisting
of phosphatidylserine (PS), phosphatidylethanolamine (PE), phosphatidylcholine
(PC), phosphatidylinositol (PI), etc. A second group is composed of sphingolipids;
among which sphingomyelin (SM) is the most abundant.
The composition of sweet (from fresh cream), sour (from aged cream)
dried buttermilk, in terms of moisture, fat, proteins, lactose, total minerals,
respectively, are 2.8% and 4.8%, 5.3% and 5.7%, 34.3% and 37.6%, 50.0% and
38.8%, and 7.6% and 5.7% [2]. Since buttermilk contains nutritive elements such as
proteins, minerals, phospholipids, etc., this by-product is a valuable commodity in
terms of its nutritional and functional attributes. Buttermilk, being a by-product of
fat processing, is low in fat and calories and hence an ideal beverage for persons
having obesity-related disorders. It is also a good source of vitamin B12, thereby
helping in cell repair due to an active functional role in the synthesis of amino
acids and fatty acids. Regular consumption of buttermilk is known to protect
against ailments such as heart diseases, cancer, diabetes, etc. [3]. It also alleviates
stress and anemia and plays an important role in promoting nerve cell growth [4].
The addition of buttermilk, both in its fluid and powdered form, to foods with
special function, offers benefits such as improved antioxidant potential and notable
buffering effect.
Buttermilk is known to help to prevent colon cancer and helps in reduction of
cholesterol levels [5]. Even at minute amounts, sphingolipids are highly bioactive
compounds making it beneficial. Regular consumption of buttermilk could provide