Lesson 4 - General Food Preservation Principles PDF

Summary

This document covers the principles and methods of food preservation. It discusses various techniques, including physical and thermal methods, to prevent food spoilage and extend shelf life. Topics include microbial decomposition, enzyme inactivation, and the use of heat, refrigeration, and drying.

Full Transcript

PRINCIPLES &

FOOD
METHODS OF

PRESERVATION
By: Rachel M. Pardiñas
 Definition of Food Processing and
Preservation

Principles of Food Preservation
FLOW OF
Causes of Spoilage
DISCUSSION
Historical Methods of Food Preservation

Methods of Food Preservation
2
 Activity
Why does fresh bread go
bad?
Why do fresh donuts go
bad?
Why do packaged bread or
donuts not go bad?
0 What is Food 0
Food Processing
Food processing requires good quality raw
materials from either plant and/or animal
 is the set of methods and source to be converted into attractive,
marketable and often long shelf-life food
techniques used to transform products.
raw ingredients into food or to
transform food into other forms
for consumption by humans or
animals either in the home or
by the food processing industry
Food Preservation
“ science which deals with the process of prevention
 Methods of treating foods to of decay or spoilage of food thus allowing it to be
stored in a fit condition for future use”.
delay the deterioration of
the food.
 Changing raw products into
more stable forms that can
be stored for longer periods
of time.
 Allows any food to be
available any time of the
year in any area of the
world.
Objectives
 Making food safe for consumption
 Removal of unwanted matter from food
 Increases digestibility
 Enhance flavor, color & taste
 Improves texture and consistency
 Minimize nutrient loss
 Extending shelf life
Importance
Increase the shelf life of food
Retain the quality of food (color, texture,
flavor, nutritional value)
Increase food supply
Adds variety to the foods
Decrease wastage of food
Make food available in off season
 Food processing and preservation are
interrelated, as food is preserved to ensure
quality before being packed for processing

Food processing mostly involves both packaging
and preservation, while food preservation is
concerned with the control and elimination of
the agents of food spoilage
0 Principles of Food Preservation
0
PRINCIPLES OF FOOD
PRESERVATION
1. Prevention or delay of microbial
decomposition
2. Prevention or delay of self –
decomposition of the food
3. Prevention of damage by insects,
rodents, animals, mechanical causes etc.
 INHIBIT OR DELAY OF MICROBIAL
DECOMPOSITION

Keeping out Removal of Hindering the growth Killing the micro-organisms
microorganisms (asepsis) microorganisms of activity of i.e., by heat or radiations.
microorganisms,
i.e., by filtration
i.e., by low
temperature,
drying, anaerobic conditions
etc.
 Keeping out microorganisms
ASEPSIS – process of keeping microorganisms out of food
and its surroundings.

 A state of being free from spoilage microbes – bacteria ,
fungi etc.
Egs : Shells of nuts, almonds, walnuts ,egg etc.
Skins of fruits – banana, orange

 Packaging – prevents the entry of microbes
Keeping out
microorganisms (asepsis)  Use of clean vessels, hygienic surroundings – help to
prevent spoilage of milk during collection and processing
by keeping out microorganisms.
Removal of microorganisms
 For the preservation of clear liquids – water,
fruit juices, beer, soft drinks etc.

 Use “ bacteria proof” filters made up of
asbestos pad, unglazed porcelain – candle
filters.

Microbes can also be removed by:
Removal of
microorganisms
 Centrifugation(Treatment of drinking water)
 Washing raw foods
 Trimming away spoiled portions of food.
 Hindering the growth of activity of
microorganisms
 Use of low temperature
 Preservation of food at refrigeration temperatures –
increases the lag phase of many microorganisms
and thus prevents their growth in foods.

 Drying
 Sun drying
 Mechanical drying
Hindering the growth  Binding the moisture with addition of sugar or salt
of activity of
microorganisms, and making it unavailable to microbes.
 Water content of food is reduced- below a certain
level - microorganisms can not grow.
 Hindering the growth of activity of
microorganisms
 Maintenance of anaerobic conditions prevent the growth of
aerobes.
e.g. Canned food – canned pea, mush rooms, baby corns etc.

Fruit juices in airtight containers – Care should be taken to kill or
inactivate anaerobic bacteria (Clostridium botulinum ) and their
spores.

 Use of chemical preservatives
Sodium benzoate
Potassium metabisulphite
Hindering the growth Sorbic acid
of activity of Calcium propionate
microorganisms,
Antioxidants –prevent rancidity (development of off-flavours in
edible oils)
e.g. Butylated Hydroxy Anisole (BHA), Butylated Hydroxy
Toluene (BHT), Lecithin.
 Killing the microorganisms
 Heat - Exposing food to high temperature kills
most of microorganisms.

 Irradiation - should be used with caution
 Use of UV lamps to sterilize knives in bakeries
 α, ß and Ƴ rays for preservation of vegetables ,
fruits, sea foods etc.

Killing the microorganisms
PRESERVATION OR DELAY BY SELF -
DECOMPOSITION OF FOOD

Destruction or inactivation Inhibit or delay of chemical
of food enzymes reactions (non-enzymatic
(phenolase) browning)
eg-: blanching
)eg:- preservation of
oxidation by means of an
antioxidant.
 Destruction or inactivation of food enzymes
(phenolase)
 Destroying or inactivating food enzymes

Blanching is an example of this kind of
prevention
Low temperature
Chemical preservatives
Destruction or inactivation Drying
of food enzymes
(phenolase)
 Preventing oxidation with the use of antioxidants

 Preventing oxidation with the use of
antioxidants
Oxygen speeds up decomposition of food,
antioxidants deprives food from oxygen.
Ex. Butter, margarine and other fatty foods

Inhibit or delay of chemical
reactions (non-enzymatic
browning)
PREVENTION OF DAMAGE BY INSECTS, RODENTS,
ANIMALS, MECHANICAL CAUSES ETC.

Food Name
0 Causes of Food 0
Bacteria prefer protein rich
foods e.g. meat, fish,
poultry, eggs, and dairy
products. These are known
as High Risk Foods.

25
0 Historical Methods of Food Preservation
0
Primitive and tedious
methods
DRYI SALTING SUGARI PICKLIN
COLD
STORAGE
NG NG G
 Drying
DRYIN
 Used to preserve fruit,
G vegetables, meats, and
fish.
 Mainly used in the south –
warmer climate.
 Causes the loss of many
natural vitamins.
 Salting
SALTIN
 Used extensively for pork,
G beef, and fish.
 Costly due to high price of
salt.
 Done mainly in cool
weather followed by
smoking.
 Sugaring
SUGARIN
 Used to preserve fruits for
G the winter.
 Jams and jellies.
 Expensive because sugar
was scarce commodity in
early times.
 Pickling
 Fermenting
PICKLI
NG
 Used to preserve vegetables.
 Use mild salt and vinegar brine.
 Increases the salt content and
reduces the vitamin content of
the food.
 Oldest form of food
preservation.
 Cold Storage
COLD
STORA
 Used extensively in the northern
GE U.S.
 Root cellars were used to store
vegetables at 30-40 degrees F.
 Root cellars were replaced by
ice boxes in the mid 1800’s.
 Refrigeration
 Early time, ice and snow was
REFRIGERATI
used.
ON
 Now the most popular method
of food preservation.
 85% of all foods are
refrigerated.
 Greatly changed our eating
habits.
 Refrigeration
REFRIGERAT
 Refrigerators should be set to
ION below 4°C to control the growth
of micro-organisms in foods.
 This lowered temperature also
reduces the respiration rate of
fruits and vegetables, which
retards reactions that promote
spoilage.
 Refrigeration is generally used
to:  reduce spoilage during distribution of
REFRIGERAT perishable foods;
ION  increase the holding period between
harvesting and processing; and
 extend the storage life of commercially
processed foods.

 Not all foods benefit from cold
temperatures.
 For example, bananas turn black and bread
goes stale when refrigerated
Heating
 Started in 1800’s.
 Known as canning – putting hot food in jars to seal.
 Food is cooked to extremely high temperatures, put
into jars and lids are placed on them.
 Lids are sealed from the heat and this prevents
bacteria from growing and spoiling the food.
 Bacteria grow at any
temperature between 5–
60 C. This temperature
0

range is known as the
Danger Zone.

37
0 Methods of Food
0
 Physical Processing
THERMAL METHODS

Blanching- Destruction of enzymatic activity, maintain color,
texture, flavor and nutritive values in fruits & vegetables.It is a
pre-treatment done
before canning, drying and freezing. Temperature is below 100˚c

Boiling - Destroys vegetative cells of bacteria, yeast and molds.
Temperature is 100˚c
 Blanching
Advantage Disadvantage
–Improves taste –Storage limits
Fruits & veggies 1
–Increases year
availability of Meat 3-6 months
out of season Freezing
foods temperatures
required for
Pasteurization
It is a mild heat treatment in which food
is heated below 100˚c. Effective for
kiling pathogenic micro-organisms

 A food preservation process that heats
liquids to 160°F (71°C) for 15 seconds
(HTST), or
 143°F (62°C) for 30 minutes, in order
to kill bacteria, yeasts, and molds
Sterilization

 The elimination of all microorganisms through
extended boiling/heating to temperatures
much higher than boiling or through the use of
certain chemicals.
 For eg, milk sterilization is done at
300F(148.9C) for 1-2 sec.
Canning
-food content is sealed in an airtight containers(jars,
steel and tin cans). During heating process air
is driven out of the jar and as it cools a vaccum seal is
formed. This vacuum seal prevents air from getting
back into the product bringing with it contaminating
microbes.
Enhances shelf life (upto5 yrs)
Suitabe for high & low acidic foods

 Hot water canning - 212˚F at sea level, time varies
with product
 Pressure canning- 240˚F
 Canning

Advantages Disadvantages
–Increases shelf life –Weight of product
–2 years is –Requires specially
considered normal treated metal cans
shelf life or appropriate glass
jars.
Drying
-Inhibitsthe growth of bacteria, yeasts and molds.
sufficient moisture is removed (aw), which is essential for enzyme activity& microbes.
Examples:- raisins, guava, apple, dates, papaya, figs
 Natural methods - shade drying
 Mechanical methods – oven ,kiln, tunnel , belt trough ,fluidized bed ,foam mat, spray,
vacuum puffing ,drum, microwave, freeze, pneumatic dryers

Factors affecting drying rate:
Temperature
Velocity of air
Surface area
Size of the product
Tray load
Relative humidity of air
Atmospheric pressure and vacuum
Moisture content of food
 Dehydration
Disadvantages
Advantages
–
–Changes
Increasestaste
shelf
and texture of
life up to 2 years
food
–Lighter weight
–Typically requires
–Lower volume
preparation to
reconstitute food.
LOW TEMPERATURE PRESERVATION
Freezing – inhibit microbial growth by lowering water activity
 Air freezing- air blast freezers, fluidized bed freezing ,tunnel freezing
temperature = (-18˚c to -40˚c), velocity =1.5- 6 m/s
 Plate freezing
 Liquid immersion freezing
 Cryogenic freezing – liquid NO2
 Deep and quick freezing
 Freeze drying
Chilling- temperature(0 to-5˚c), reduction in free liquid water activity
thud depriving micro-organisms of the water they need to metabolize.
 Immersion chilling
 Air chilling

Refrigeration - tempertaure (-15 to -25˚c)
 Bulking
 Shelfing
 Boxing
TYPES OF NON THERMAL PRESERVATION
TECHNIQUES
IRRADIATION
 Exposing food to inonizing radiation, such as gamma rays, X-rays or electron beam without direct contact to the food
product.

 Destroys micro-organisms causing spoilage and food borne illness and inhibiting sprouting/ ripening and control
insects and invasive pests.

Depending upon the dosage:
 Micro-organism destroys
 Slowed down
 Incapable of reprodution
 Ex: sprouting in potato, onion ,garlic

DOSES
 Inhibit sprouting= (0.06-0.2 kGy)
 Delay in ripening=(0.5-1.0 kGy)
 Prevent insect infestation=(0.15-1.0 kGy)
 Parasite control= (0.3-1.0 kGY)
 Extend shelf life (raw meat)=(1.0-5.5 kGy)
 Extend shelf life(frozen meat)=(4.5-7.0 kGy)
 Pathogenic &spoilage microbes=(1.0-7,=.0 kGy)
 Reduction in cooking time(dried veg)=(3.0-7.0)kGy
 Enzymes =(10.0 kGy)
 Sterilization (spices,veg seasonings)=10.0 kGy
 Sterilization foods (NASA)= (44.0 kGy)
 Packaging sterilization=(10-25 kGy)
 Irradiation
Advantage
Disadvantages
––Gamma
High costrays pass
through without
–Perception of
heating or changing
irradiation
it, therefore no heat
sensitive nutrients
are lost in the
process
Ultrasound
Microbial inactivation - cavitation process (changes the pressure and temperature )
break down of cell walls, disruption and thinning of cell membranes and DNA
damage.
 Transient cavitation
 Stable cavitation-

Methods:-
 Ultrasonication
 Thermosonication
 Manosonication
 Manothermosonication-

DOSES
 Microorganism inactivation= ultrasonic waves (20kHz,D value=4.3min) and (200kPa,1.5-1.0 min)
 Spore inactivation =500kPa for 12 min(manosonication), 20kHz at 300kPa(sonication)
 Enzyme inactivation=1000Pa at 5000K(lipoxygenase and polyphenol oxidase)

APPLICATIONS
 Filteration&drying
 Freezing
 Mixing & homogenization
 Defoaming
 Crystallization of fats,sugars
 Cutting
 Degassing
 Pulse electric field

short pulses of high electric fields(few micro-milliseconds) with intensity in the range of (10-80kV/cm) for
microbial inactivation and causes minimal detrimental effect on food quality attributes.

o Gram +ve are more resistant than gram –ve
o Spores are highly resistant
o Yeast more sensitive than bacteria
o PEF inactivates yeast, pathogens & spoilage M.O

Mechanism:
1. Electrical breakdown
2. Electroporation

Uses- milk & dairy products, juices, enhancement of juice extraction
Juice processing- increase mass transfer coefficient due to cell membrane permeabilisation.

Applications:

 Sugar processing- disintegration and destruction of cell membrane at 70-78˚c
 Plant oil extraction- oil recovery improved by 7.4%at 1.3kV/cm
soya bean oil – iso-flavonoid content increases
 Meat & fish- improve mass transfer and accelerate, curing
Ohmic Heating

Food material , which serves as an electrical resistor,is heated by passing
electricity through it. Electrical energy is dissipated into heat, which results
in rapid and uniform heating.
 Heating rate = 1 to 10˚c/s

Mechanism:
1. Thermal inactivation
2. Electroporation (50-60Hz)

uses
 Meat processing- Reduce cooking time of brine cured meat(>0.5Kg/min)
Quicker and uniform thawing
 Milk processing- HTST ohmic pasteurization(goat milk)

 Fruit &vegetable processing- reduces loss of solid (upto50%)
ohmic blanching-enhance water and
surface transfer
High pressure processing(HPP or pascalization)
Food products are processed under very high pressure, leading to the inactivation of certain micro-organisms
(vegetative cells)and enzymes
o Range for Food – (400-600MPa) for 2 minutes or greater
o Temp of product rises 3-6˚c for every 100 Mpa

Principle:
 Le chateliar’s principle
 Isostatic principle

DOSES
 Inactivation of (milk) enzymes= (1000MPa)
 Commercial food products= (600MPa)
 Increasing milk shelf life = 600MPa for 60 min(4 days)

Inactivates:
parasites
Vegetative cells
Fungal spores
Food borne viruses
Selected enzymes

Suitable for:
 Low medium moisture,semi-solid, vacuum foods
 High moisture,solid foods, vacuum packed
Filteration
Reduces microbial population or sterilizes solutions of heat sensitive materials by
removing micro-organisms.
1. Depth filters
Thick fibrous / granular filters that removes micro-organisms by physical
screening, entrapment or adsorption
2. Membrane Filters
porous membrane with defined pore sizes that removes micro-oraganisms
primarily by physical screening.

Antimicrobials
 Bactericide: chemical that destroys bacteria(not spores)
 Fungicide: chemicals that kills fungal spores,hyphae, yeasts
 Virucide: chemical that inactivate virus
 Sporicide: can destroy bacterial endospores
 Germicide and microbicide: kills micro-organisms
 Bacteriostatic: prevent growth of bacteria
Examples- methyl,ethyl,propyl and butyl arabens, sorbic acid ,Na,K& Ca
sorbate,Benzoic acid ,Na,K&Ca benzoate, sodium Metabisulphite, propylene glycol,
BHT, BHT, benzaldehyde , essential oils, phenol and mercury compounds
 CHEMICAL PROCESS
Preservatives
Chemicals used to retard food spoilage caused by micro-organisms &prolong shelf life.
1. Traditional:
 Salting- contains chlorine, harmful for microbes(causing dehydration)
 Sugaring- increase osmotic pressure , Aw=