Food Biochemistry and Food Processing (2 edition)

(Steven Felgate) #1

BLBS102-c23 BLBS102-Simpson March 21, 2012 13:44 Trim: 276mm X 219mm Printer Name: Yet to Come


434 Part 4: Milk

Figure 23.1.Processing scheme for natural cheeses.

contain unknown numbers of strains of the same species, are
used. Mesophilic L cultures containLeuconostocspecies, in-
cludingLn. mesenteroidesssp.cremorisandLn. lactis,while the
main species in mesophilic D culturesLactococcus lactisssp.
cremoriswith lesser amounts ofLc. lactisssp.lactis.Mesophilic
DL cultures would consist of both lactococci and leuconostoc.
The thermophilic cultures consist ofS. thermophilus, and ei-
therLactobacillus helveticus, Lb. delbrueckiissp.lactisorLb.
delbrueckiissp.bulgaricus.

Cutting the Coagulum Cutting the coagulum increases the
drainage of the whey from the curds and contributes to a sharp
decrease in the moisture content of the curds. Acid-coagulated
and rennet-coagulated cheeses differ in the pH at which curd for-
mation occurs, and subsequently the pH at which the coagulum
is cut. For acid-coagulated cheeses, curd formation occurs at

pH 4.6, the isoelectric point of casein. Curd formation of rennet-
coagulated cheeses occurs at higher pHs, ranging from pH 6.3 to
6.6. Following the cutting of the coagulum, the curd and whey
mixture is heated and agitated in a process called “scalding.”
The agitation is necessary to keep the curds suspended in the
whey and to promote drainage of whey from the curds. The tem-
perature during the scalding process is dependent on the type of
the cheese and ranges from 20◦Cto55◦C. The temperature af-
fects gel formation, gel viscoelasticity, and regulates the growth
of the lactic acid bacteria. A high temperature results in greater
drainage from the cheese and a firmer cheese.
The conversion of lactose to lactic acid by starter cultures
decreases the pH of the curd, which contributes to the loss of
the whey from the curd and a decrease in moisture content.
While the curds are in the whey, diffusion of lactic acid into
the whey and lactose into the curds occurs. The rate of acid
production is affected by the amount and type of the starter
cultures, composition of the milk, and temperature during acid
production.
When the required acidity of the cheese curds is reached, the
whey is drained to recover the curds. Following the separation
of the curds from the whey, acid production continues at an
increased rate, because of the lack of diffusion of the lactic acid
from the curd. To minimize excess acid development following
the drainage of the whey, some types of cheese include a washing
step to reduce the lactose content. The moisture content of the
curd is affected by the extent the coagulum is cut, the temperature
of the curd after cutting, and agitation of the curd in the whey.
The handling of the curd following the cutting of the coagulum
greatly affects the characteristics of the cheese. The cheddaring
process, used in the manufacture of Cheddar, Colby, Monterey,
and Mozzarella cheeses, involves piling blocks of curd on top
of each other with regular turning to allow the curds to fuse
together. In Colby and Monterey cheeses, vigorous stirring dur-
ing the drainage of the whey inhibits the development of a curd
structure and results in the softer cheese with a higher moisture
content. Frequently, the whey may be partially drained off and
replaced with water or salt brine to remove lactose and reduce
the development of acidity, as is done in the processing of Gouda
and Limburger cheeses.

Shaping and Pressing The resulting curds are shaped to form
a coherent mass that is easy to handle. The curds are placed in
a mold and are often pressed with an external force to cause
the curds to deform and fuse. The pressure and time of pressing
range from a few g/cm^2 for a few minutes for moist cheeses,
to 200 to 500 g/cm^2 for up to 16–48 hours for cooked and hard
cheeses. The temperature (20–27◦C) and humidity (95% relative
humidity) of the pressing room is controlled to optimize the
growth of the lactic acid bacteria and facilitate the deformation
and shaping of the curd. Acid production by lactic acid bacteria
and additional drainage of whey from the curd continues during
the shaping and pressing stage. The deformability is affected by
the composition of the cheese, and increases until the curds reach
a pH of 5.2–5.3. Deformability also increases with an increase
in moisture content and temperature.
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