BLBS102-c38 BLBS102-Simpson March 21, 2012 14:17 Trim: 276mm X 219mm Printer Name: Yet to Come
732 Part 7: Food Processingof microbial kinetic data and reliable measurement of tempera-
ture profile of the product at the worst case or slowest heating
point within the container are important inputs to determine or
evaluate the reliability of a given thermal process.
The desired degree of lethality in terms of minimum equiva-
lent time at a given reference temperature is generally preestab-
lished for a given product considering kinetic data of target mi-
croorganism, and processes are designed to deliver a minimum
of this preset value at the thermal center. There are essentially
two widely accepted categories of methods for using these data
to perform thermal process calculations. The first of category
is the General Method of process calculation based on Bigelow
et al. (1920) method of calculation, and the second is the For-
mula Method of process calculation based on concepts of Ball
(1923) or Stumbo (1973).General MethodThe General Method developed by Bigelow et al. (1920) is a
graphical procedure to calculate thermal processes. It is a simple
method and can be applied to any product and process situation.
The method is used to determine sterility equivalents at known
product temperatures measured directly by the use of thermo-
couples positioned within the slowest heating test container at
the slowest heating spot in the container. It is the most accurate
method for evaluating under a given set of heat penetration data
gathering. It is universally applicable to essentially any type of
thermal processing situation and used to get the baseline target
value upon which all other experimental and formula calculation
method performances are compared.
However, the time–temperature data is at the coldest spot
and the method is only used to calculate process times for the
given heat profile data. Because of this main limitation of the
method, it lacks predictive power for different processes. Thereare two General Method approaches: Original General Method
and Improved General Method.Original General MethodThe Original General Method uses the time–temperature data
at slowest heating point of the product and converts this data
to destruction rate graph to determine sterilization value of the
process (area under the curve in the graphical procedure). The
procedure is to plot the inverse of TDT against time to produce
a destruction rate curve. The area beneath the curve corresponds
to the accumulated sterilization value delivered by the process
during heating and cooling (Fig. 38.4). Conversion of available
time–temperature data to destruction rate is done using Equation- From gathered time–temperature data, TDT is calculated and
then the reciprocal of TDT (TDT−^1 ) is computed for correspond-
ing temperature (Table 38.4 columns 3 and 4). The reciprocal
of TDT is known as the destruction rate achieved at that par-
ticular time–temperature combination. Using destruction rate
versus time (1/TDT vs. Time), the graph is drawn and the area
under the curve is determined by counting the squares, or using
planimeter. A unit of sterilization area on the curve is equal to
the product of destruction rate and time of unity, which is the
minimum processing requirement to achieve desired degree of
commercial sterilization value (SV) with respect to target mi-
croorganism. The sterilization value of the overall process can
be calculated by considering the area under the curve divided by
the unit sterilization area.
Graphical method of process calculation is summarized in
Table 38.4 forC. botulinumwithD 0 valueof0.21minuteto
achieve TDT value of 12D 0 (F 0 ) withzvalue of 18◦F.
In order to get a target sterilization value, the process (steam
off) time is appropriately increased or decreased, as the case
may be by shifting cooling curve to right or left direction on
Unit SV = Unit area = 0.05x20 Total SV= Total area under the curveLines drawn to the left parallel to
the cooling line to reach desired
sterilization value0.45
0.40.30.20.10
020
Time (min)Lethality (1/TDT)40 600.350.250.150.05Figure 38.4.Graphical approach of process calculation. Broken lines are parallel lines drawn to the left after carrying out over-processing in
order to get desired SV.