Minimal processing

LEARN . GROW . EXCEL
FT 308 FRUIT AND VEGETABLE PROCESSING
Department of Food Technology
Saintgits College of Engineering
Kottukulam Hills,pathamuttom,kottayam-686532

WHAT IS MINIMAL PROCESSING
• Minimally Processed Foods are those which minimally influences the quality
characteristic of a food, whist at the same time giving the food sufficient shelf life
during storage and distribution.
• Minimally processed technologies are techniques that preserve foods, but also
retain to a certain extent their nutritional quality and sensory characteristics by
reducing the reliance on heat as the main preservative action.
• Minimally fresh processed fruit and vegetables are prepared for consumption by
using light combined methods such as washing, cutting, grating, shredding,
pulling the leaves off, etc. and packing at chilling temperatures under polymeric
films that are able to generate optimum modified atmosphere packaging (MAP)
conditions.
• It is also named fresh-cut or ready-to-eat, is commonly free from additives and
only needs minimal or no further processing prior to consumption

WHAT IS MINIMAL PROCESSING
• Minimal processing of raw fruits and vegetables has two purposes
• Keeping the produce fresh, without losing its nutritional quality
• Ensuring a product shelf-life sufﬁcient to make distribution feasible
within a region of consumption.
• The microbiological, sensory and nutritional shelf-life of minimally
processed vegetables or fruits should be at least 4–7 days, but
preferably up to 21 days depending on the market

• Studies show that consumers need for convenience are correlated with food
choice, therefore the fresh cut fruit and vegetable industry is working to
increase the assortment of minimally processed vegetable products that
meets the consumers needs for quick and convenient products that preserve
their nutritional value, retain a natural and fresh colour, flavour and texture
and contain fewer additives such as preservatives.
• As consumers increasingly perceive fresh food as healthier than heat-treated
food,it motivates a general search for food production methods with reduced
technological input.

Quality changes in minimally processed fruit and
vegetables
• As a result of peeling, grating and shredding, produce will change
from a relatively stable commodity with a shelf-life of several weeks
or months to a perishable one that has only a very short shelf-life, as
short as 1–3 days at chilled temperatures.
• During peeling and grating operations, many cells are broken and
intracellular products, such as oxidising enzymes, are released.
• Minimally processed produce deteriorates owing to physiological
ageing, biochemical changes and microbial spoilage, which may result
in degradation of the colour, texture and ﬂavour

Physiological and biochemical changes
• The most important enzyme in minimally processed fruits and vegetables is
polyphenol oxidase which causes browning .
• Another important enzyme is lipooxidase which catalyses peroxidation
causing the formation of numerous bad-smelling aldehydes and ketones.
• Ethylene production can also increase and because ethylene contributes to
the neosynthesis of enzymes involved in fruit maturation, it may play a part
in physiological disorders of sliced fruits, such as softening.
• With processing, the respiration activity of produce will increase by
between 20% to as much as 700% or more depending on the produce,
cutting grade and .
• If packaging conditions are anaerobic, this leads to anaerobic respiration
causing the formation of ethanol, ketones and aldehydes(Powrie and Skura,
1991).

Microbiological changes
• During peeling, cutting and shredding, the surface of the produce is
exposed to the air and to contamination with bacteria, yeasts and
moulds.
• In minimally processed vegetables, most of which fall into the low
acid range category (pH 5.8–6.0), high humidity and the large number
of cut surfaces can provide ideal conditions for the growth of
microorganisms.
• Because minimally processed fresh fruits and vegetables are not heat
treated, regardless of additives or packaging, they must be handled and
stored at refrigerated temperatures, at 5°C or under in order to achieve
a sufﬁcient shelf-life and microbiological safety

Nutritional changes
• Little is known about nutritive value, that is vitamin, sugar, amino
acid, fat and ﬁbre content of minimally processed produce.
• Washing does not decrease the vitamin content (vitamin C and
carotenes) of grated carrot, shredded Chinese cabbage or peeled
potatoes signiﬁcantly

Key requirements in the minimal processing of
fruits and vegetables
• Raw material of good quality (correct cv. variety, correct cultivation,
harvesting and storage conditions)
• Strict hygiene and good manufacturing practises, HACCP
• Low temperatures during working
• Careful cleaning and/or washing before and after peeling
• Water of good quality (sensory, microbiology, pH) used in washing
• Mild additives in washing for disinfection or browning prevention
• Gentle spin drying after washing
• Gentle peeling * Gentle cutting/slicing/shredding
• Correct packaging materials and packaging methods
• Correct temperature and humidity during distribution and retailing

Methods to improve quality
Raw materials
It is self evident that vegetables or fruits intended for prepeeling and
cutting must be easily washable, peelable and their quality must be ﬁrst
class.
The correct and proper storage of vegetables and careful trimming
before processing are vital for the production of prepared vegetables of
good quality

Peeling, cutting and shredding
• Peeling should be as gentle as possible.
• The ideal method would be hand peeling with a sharp knife.
• (e.g. rotating carborundum drums), chemically or in high-pressure steam peelers
or water jets .
• If mechanical peeling is used, it should resemble knife peeling. Carborundum,
steam peeling or caustic acid disturb the cell walls of a vegetable enhancing the
possibility of microbial growth and enzymatic changes.
• The cutting and shredding must be performed with knives or blades as sharp as
possible and made from stainless steel.
• It is clear that slicing with blunt knives impairs quality retention because of the
increased breaking of cells and release of tissue ﬂuid.
• A slicing machine must be installed solidly, because vibrating equipment may
possibly impair the quality of sliced surfaces.
• Mats and blades used in slicing should also be disinfected, for example, with a 1%
hypochlorite solution.

Cleaning, washing and drying
• Incoming vegetables or fruits, which are covered with soil, mud and
sand, should be carefully cleaned before processing.
• A second wash must usually be done after peeling and/or cutting.
• Washing after peeling and cutting removes microbes and tissue ﬂuid,
thus reducing microbial growth and enzymatic oxidation during
storage.
• Washing in ﬂowing or air-bubbling water is preferable to dipping into
still water.
• The microbiological quality of the washing water used must be good
and its temperature low, preferably below 5°C.
• The recommended amount of water used is 5–10lkg-1 of product
before peeling/cutting and 3lkg-1 after peeling/cutting

Cleaning, washing and drying
• Preservatives can be used in washing water to reduce microbial
numbers and to retard enzymatic activity, thereby improving the shelf-
life.
• 100–200mg of chlorine or citric acid per litre is effective in washing
water before or after peeling and/or cutting to extend shelf-life.
• Washing water should be removed gently from the product.
• A centrifuge seems to be the best method.
• The centrifugation time and rate should be chosen so that the process
removes free water but does not damage vegetable cells.

Browning inhibition
A key quality problem for fruits and vegetables such as peeled and
sliced apple and potato is enzymatic browning.
Washing with water is not effective in preventing discoloration
Sulphites have been used to prevent browning. However, the use of
sulphites has some disadvantages, in particular dangerous side effects
for asthmatics.
Enzymatic browning requires four different components: oxygen, an
enzyme, copper and a substrate.
In order to prevent browning, at least one component must be removed
from the system.

Browning inhibition
• Citric acid acts as a chelating agent and acidulant, both of which
characteristics inhibit PPO
• Ethylenediamine tetraacetic acid (EDTA), a complexing agent,
Protease enzymes, Cysteine

Biocontrol agents
• A key issue with minimally processed foods is microbiological safety.
• An emerging technology in controlling pathogen growth is the use of
biocontrol technology such as lactic acid bacteria (LAB) which
compete with, and thus inhibit, pathogen growth
• LAB can produce both metabolites, such as lactic and acetic acids,
which lower pH, or bacteriocins

Packaging
• A key operation in producing minimally processed fruits and vegetables is
packaging
• The most studied packaging method for prepared raw fruits and vegetables
is modified atmosphere packaging (MAP).
• The basic principle in MAP is that a modified atmosphere can be created
passively by using suitable permeable packaging materials, or actively by
using a specified gas mixture together with permeable packaging materials.
• The aim of both is to create an optimal gas balance inside the package,
where the respiration activity of a product is as low as possible whilst
ensuring that oxygen (O2) concentration and carbon dioxide (CO2) levels
are not detrimental to the product.
• In general, the aim is to have a gas composition where there is 2–5% CO2,
2–5% O2 and the rest nitrogen

Packaging
• High oxygen MAP treatment has been found to be particularly
effective at inhibiting enzymatic browning, preventing anaerobic
fermentation reactions and inhibiting aerobic and anaerobic microbial
growth.
• High oxygen levels may cause substrate inhibition of PPO

Edible coatings
• Packaging’method for extending the post-harvest storage of minimally
processed fruit and vegetables is the use of edible coatings.
• These are thin layers of material that can be eaten by the consumer as
part of the whole food product.
• Coatings have the potential to reduce moisture loss, restrict oxygen
entrance, lower respiration, retard ethylene production, seal in ﬂavour
volatiles and carry additives (such as antioxidants) that retard
discoloration and microbial growth

Storage conditions
• Chilling is an important preservative hurdle, as is the control of
humidity.
• Storage at 10°C or above allows most bacterial pathogens to grow
rapidly on fresh cut vegetables.
• Storage temperature is also important when MAP or vacuum
packaging is used.
• Processing, transport, display and intermediate storage should all be at
the same low temperature (preferably 2–4°C) for produce not
vulnerable to chilling injury.
• Changes in temperature should be avoided.
• Higher temperatures speed up spoilage and facilitate pathogen growth.
Fluctuating temperatures cause in-pack condensation which also
accelerates spoilage

Minimal processing

More Related Content

What's hot (20)

Similar to Minimal processing (20)

Recently uploaded (20)

Minimal processing