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Thermal Processing of Food Page 1
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WHITEPAPER
Thermal Processing of Food
CONTENTS SUMMARY
1. Introduction
2. Blanching
2.1 Blanching and enzyme inactivation
2.2 Methods of blanching
2.3 Testing of the effectiveness of blanching
3. Pasteurization
3.1 Purpose of pasteurization
tempera-
3.2 Method for pasteurizing The use of high
4. Sterilization tures to preserve and ensure
the safety of food is based
4.1 Canned foods on the effect of microbial
4.2 Conditions affecting the growth of destruction. Thermal pro-
micro-organisams cessing is one of the most
4.3 Micro-organisms in retorted foods
4.4 Microbial spoilage of canned foods widely used unit operations
4.5 Sterilisation process and equipment employed in the food indus-
4.6 Containers for thermally treated products try and is frequently deter-
4.7 Cleaning of containers prior to filling mined as a Critical Control
4.8 Seaming of cans Point (CCP). This whitepaper
4.9 Death rate curve (D value) covers the main science be-
4.10 Thermal death time (TDT) curve
4.11 Some factors affecting heat resistance hind the unit operation and
4.12 Design of heat sterilization processes should be used to underpin
4.13 The “F0 value” the development and design
4.14 The lethality factor “l” of thermal processing steps.
Safefood 360, Inc. 2014 Part of Our Professional Whitepapers Series
Thermal Processing of Food Page 2
1. Introduction 2.1 Blanching and enzyme
inactivation
There are two main temperature
categories employed in thermal processing: Freezing and dehydration are insuffcient
Pasteurization and Sterilisation. The basic to inactivate enzymes and therefore
purpose for the thermal processing of foods blanching can be employed. Canning
is to reduce or destroy microbial activity, conditions may allow suffcient time for
reduce or destroy enzyme activity and enzyme activity. Enzymes are proteins
to produce physical or chemical changes which are denatured at high temperatures
to make the food meet a certain quality and lose their activity. Enzymes which
standard. e.g. gelatenization of starch & cause loss of quality include Lipoxygenase,
denaturation of proteins to produce edible Polyphenoloxidase, Polygaacturonase and
food. There are a number of types of heat Chlorophyllase. Heat resistant enzymes
processing employed by the food industry. include Catalase and Peroxidase
Mild processes Blanching 2.2 Methods of Blanching
Pasteurisation
More severe Canning Blanching is carried out at up to 100°C
processes Baking using hot water or steam at or near
Roasting atmospheric pressure.
Frying
Some use of fluidised bed blanchers,
2. Blanching utilising a mixture of air and steam, has
been reported. Advantages include faster,
The primary purpose of blanching is more uniform heating, good mixing of
to destroy enzyme activity in fruit and
the product, reduction in effluent, shorter
vegetables. It is not intended as a sole processing time and hence reduced loss of
method of preservation, but as a pre- soluble and heat sensitive components.
treatment prior to freezing, drying and
canning. Other functions of blanching There is also some use of microwaves for
include: blanching. Advantages include rapid
heating and less loss of water soluble
• Reducing surface microbial components. Disadvantages include high
contamination
capital costs and potential diffculties in
uniformity of heating.
• Softening vegetable tissues to
facilitate filling into containers
• Removing air from intercellular
spaces prior to canning
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Thermal Processing of Food Page 3
Steam Blanchers drum, partially submerged in the hot water.
It is carried along by internal flights,
This is the preferred method for foods residence time being controlled by the
with large cut surface areas as lower speed of rotation.
leaching losses. Normally food material
carried on a mesh belt or rotatory cylinder Pipe blanchers consist of insulated tubes
through a steam atmosphere, residence through which hot water is circulated. Food
time controlled by speed of the conveyor or is metered into the stream, residence time
rotation. Often poor uniformity of heating being controlled by the length of the pipe
in the multiple layers of food, so attaining and velocity of the water.
the required time-temperature at the
centre results in overheating of outside The blancher-cooker has three sections, a
layers. preheating stage, a blanching stage, and
a cooling stage. As the food remains on a
Individual Quick Blanching (IQB) involves single belt throughout the process, it is less
a first stage in which a single layer of the likely to be physically damaged. With the
food is heated to suffcient temperature to heat recovery incorporated in the system,
inactivate enzymes and a second stage in 16 to 20 kg of product can be blanched for
which a deep bed of the product is held for every kg of steam, compared with 0.25 to
suffcient time to allow the temperature at 0.5kg per kg stream in the conventional
the centre of each piece to increase to that hot water blanchers.
needed for inactivation.
2.3 Testing of the Effectiveness of
The reduced heating time (e.g. for 10 mm Blanching
diced carrot, 25 s heating and 50 s holding
compared with 3 minutes conventional Over blanching causes quality loss due
blanching) results in higher energy to overheating while under blanching
causes quality loss due to increased enzyme
effcienciess For small products es gs
peas, sliced or diced carrots), mass of activity because enzymes activated and
produce blanched per kg steam increases substrates released by heat. The
from 0.5kg for conventional steam Peroxidase test in vegetables is used to
blanchers to 6-7kg for IQB. detect enzyme inactivation. This enzyme is
not in itself implicated in degradation, but
Hot Water Blanchers is relatively heat resistant and easily
detected. It consists of adding guaiacol
Includes various designs which hold solution and hydrogen peroxide solution
the food in hot water (70 to 100°C) and observing the development of a brown
for a specified time, then moves it to a colour indicating peroxidase activity.
dewatering/cooling section. In blanchers
of this type the food enters a slowly
rotating
Safefood 360, Inc. 2014 Part of Our Professional Whitepapers Series
Thermal Processing of Food Page 4
Complete inactivation is not always of the process, alkaline phosphatase is a
essential – green beans, peas and carrots naturally occurring enzyme in raw milk
with some residual peroxidase activity with a similar D value to heat-resistant
have shown adequate storage quality at pathogens and so is routinely used as an
-20°C through with other vegetable (e.g. indicator of adequate pasteurisation. If
Brussels sprouts) zero peroxidase activity is phosphatase activity is found, it is assumed
essential. that pasteurisation is inadequate.
Pasteurization is normally used for
3. Pasteurization the destruction of all disease causing
organisms (e.g. pasteurization of milk) or
3.1 Purpose of Pasteurization the destruction or reduction in the number
of spoilage organisms in certain foods e.g.
Pasteurization is a relatively mild heat vinegar.
treatment in which food is heated to Table: Milk Pasteurizing Temperatures
<100°C. It is widely used throughout the
food industry and is frequently employed Temperature Time
as a CCP in various HACCP plans. As a
unit operation in food processing it can be 63°C For 30 min (low
used to destroy enzymes and relatively temperature long time LTLT)
heat sensitive micro-organisms (e.g. non 72°C For 15 sec (primary high
temperature short time,
spore forming bacteria, yeast and moulds). HTST method)
In this regard is it used to extend shelf life 89°C For 1.0 sec
by several days e.g. milk or months e.g. 90°C For 0.5 sec
bottled fruit. 94°C For 0.1 sec
100°C For 0.01 sec
The severity of treatment and resulting
extension of shelf life is determined These temperatures are equivalent and are
mostly by pH of the food. In low acid foods suffcient to destroy the most heat sensitive
(pH<4.5), the main purpose is destruction of the non-spore-forming pathogenic
of pathogenic bacteria, while below pH 4.5 organisms. Milk pasteurization
the destruction of spoilage microorganisms temperatures are also suffcient to destroy
or enzyme deactivation is usually more all yeasts, moulds, gram negative bacteria
important. The extent of heat treatment and many gram positive. The two groups
required is determined by the D value of micro-organisms that survive
(Decimal reduction time or time to reduce pasteurisation temperatures used in milk
numbers by a factor of 10 or 90% of the are:
initial load) of most heat resistant enzyme
or micro-organism which may be present.
In terms of checking the effectiveness
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