Edible coatings ppt
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About This Presentation
This power point presentation contains materials using for enrobing, coating technologies, enrobing of fruits and vegetables, meat and poultry products, benefits of enrobing
Slide Content
1
DEPARTMENT OF AGRICULTURAL ENGINEERING
UNIVERSITY OF AGRICULTURAL SCIENCES
GKVK, UAS, BANGALORE
Edible Coatings and Films (Enrobing) in Food Applications
Credit
seminar-II on
Nagarathna S B
PALB-5332
Sr M.Tech(Agri. Engg) (PFE)
DEPARTMENT OF AGRICULTURAL ENGINEERING
UNIVERSITY OF AGRICULTURAL SCIENCES
GKVK, UAS, BANGALORE
Edible Coatings and Films (Enrobing) in Food Applications
Credit
seminar-II on
Nagarathna S B
PALB-5332
Sr M.Tech(Agri. Engg) (PFE)
Contents
Introduction
Materials of Enrobing
Coating Technologies
Enrobing of Fruits and Vegetables
Enrobing of Meat and Poultry
Benefits of Enrobing
Conclusion
References
Jan 9, 2019 2
Introduction
Materials of Enrobing
Coating Technologies
Enrobing of Fruits and Vegetables
Enrobing of Meat and Poultry
Benefits of Enrobing
Conclusion
References
Jan 9, 2019 2
•Food market continuously generates novel products.
•Food appearance is the most perceived attribute of the
consumers
•To prolong the shelf-life different chemical and physical
strategies are employed
•Application of edible films and coatings is a simple
technology effective in extending the shelf-life of foods.
Jan 9, 2019 3
Introduction
•Food appearance is the most perceived attribute of the
consumers
•To prolong the shelf-life different chemical and physical
strategies are employed
•Application of edible films and coatings is a simple
technology effective in extending the shelf-life of foods.
Jan 9, 2019 3
Introduction
A promising approach
Edible coatings have
antimicrobial, antioxidant,
antibrowning and texture
enhancing properties
Biodegradable and
biocompatible polymers
from natural sources
Jan 9, 2019 4
Why edible coatings/films ?
Edible coatings have
antimicrobial, antioxidant,
antibrowning and texture
enhancing properties
Biodegradable and
biocompatible polymers
from natural sources
Jan 9, 2019 4
Why edible coatings/films ?
Special Focus !!
•To understand the concept, history and definition of Edible
Coatings/Films
•To know the materials, methods and benefits of Enrobing
•To understand enrobing of fruits and vegetables, meat and
poultry products
Jan 9, 2019 5
•To understand the concept, history and definition of Edible
Coatings/Films
•To know the materials, methods and benefits of Enrobing
•To understand enrobing of fruits and vegetables, meat and
poultry products
Jan 9, 2019 5
History and Background
•Enrobing with wax on the fruits has been documented in China in
the 12
th
and 13
th
centuries.
•In 15
th
century an edible film- ‘Yuba’ was used in Japan.
•Enrobing of foods with fat-‘Larding’ was used in 16
th
century in
England.
•In the 19
th
century - US patent, for preservation of various meat
products by Gelatin.
•In the early 1950s, carnauba wax was developed for coating fruits
and vegetables.
Jan 9, 2019 6
•Enrobing with wax on the fruits has been documented in China in
the 12
th
and 13
th
centuries.
•In 15
th
century an edible film- ‘Yuba’ was used in Japan.
•Enrobing of foods with fat-‘Larding’ was used in 16
th
century in
England.
•In the 19
th
century - US patent, for preservation of various meat
products by Gelatin.
•In the early 1950s, carnauba wax was developed for coating fruits
and vegetables.
Jan 9, 2019 6
Definition
“Any type of material used for enrobing (coating or wrapping)
various food to extend shelf life of the product that may be eaten
together with food is considered an edible film or coating’’
Jan 9, 2019 7
“Any type of material used for enrobing (coating or wrapping)
various food to extend shelf life of the product that may be eaten
together with food is considered an edible film or coating’’
Jan 9, 2019 7
Importance of Enrobing
Jan 9, 2019 8
Processing
Quality
Storage
Quality
Sensory
Quality
Jan 9, 2019 8
Processing
Quality
Storage
Quality
Sensory
Quality
Enrobing Materials
Jan 9, 2019 9
Jan 9, 2019 9
Protein based films & coatings
Jan 9, 2019 10
Jan 9, 2019 10
Animal proteins
Casein
•Major dairy protein.
11
Fig: Sodium caseinate and
glycerol (35%) biofilms
Whey Protein
•It is a byproduct of cheese
making process.
Jan 9, 2019
Casein
•Major dairy protein.
11
Fig: Sodium caseinate and
glycerol (35%) biofilms
Whey Protein
•It is a byproduct of cheese
making process.
Jan 9, 2019
Edible Whey Protein
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Jan 9, 2019 12
Meat Protein
•There are three types of meat proteins
Sarcoplasmic
Stromal
Myofibrillar
•Stromal and myofibrillar proteins are used for making edible films
and coatings
Jan 9, 2019 13
•There are three types of meat proteins
Sarcoplasmic
Stromal
Myofibrillar
•Stromal and myofibrillar proteins are used for making edible films
and coatings
Jan 9, 2019 13
Feather Keratin
•It is a fibrous protein with unique film forming properties
Jan 9, 2019 14
Hydrolyzed feather protein meal
•It is a fibrous protein with unique film forming properties
Jan 9, 2019 14
Hydrolyzed feather protein meal
Plant Proteins
Wheat Protein
Gluten and gliadin are the major protein
Soy Protein
It is composed of mixture of globular proteins.
Corn Zein
It is composed of three amino acids viz., glutamine, leucine and
proline
Jan 9, 2019 15
Wheat Protein
Gluten and gliadin are the major protein
Soy Protein
It is composed of mixture of globular proteins.
Corn Zein
It is composed of three amino acids viz., glutamine, leucine and
proline
Jan 9, 2019 15
Solvents and Plasticizers
•Solvent- water, ethanol
•Plasticizer- sorbitol, sucrose,
glycerol.
Jan 9, 2019 16
•Solvent- water, ethanol
•Plasticizer- sorbitol, sucrose,
glycerol.
Jan 9, 2019 16
Advantages of protein based films
•It provides excellent barrier to oxygen
•Acts as barrier to mass transfer of carbon
dioxide
•Improves appearance by adding gloss
Jan 9, 2019 17
•It provides excellent barrier to oxygen
•Acts as barrier to mass transfer of carbon
dioxide
•Improves appearance by adding gloss
Jan 9, 2019 17
Lipid based Edible Films
•These were developed specifically for limiting moisture
migration within foods.
•Most commonly used hydrophobic film forming barrier
materials include
Waxes
Lacs/lacquers
Fatty acids and alcohols
Acetylated glycerides
Cocoa based compounds and their derivatives
Jan 9, 2019 18
•These were developed specifically for limiting moisture
migration within foods.
•Most commonly used hydrophobic film forming barrier
materials include
Waxes
Lacs/lacquers
Fatty acids and alcohols
Acetylated glycerides
Cocoa based compounds and their derivatives
Jan 9, 2019 18
Hydrophobic Substances used as Film
Former or Barrier Compounds
Oils & Fats
Animal and vegetable oils &fats (peanut, coconut, palm,
palm kernel oils, cocoa, milk butters, lard, tallow, etc.)
Waxes
Natural vegetable and animal waxes: candelilla,
carnauba, jojoba bees,
Natural
resins
Asafoetida
Essential
oils and
liquorices
Camphor, mint, and citrus fruit essential oils
Emulsifiers
and surface
active
agents
Lecithins, mono- and diglycerides, mono- and diglyceride
esters
Jan 9, 2019 19
Former or Barrier Compounds
Oils & Fats
Animal and vegetable oils &fats (peanut, coconut, palm,
palm kernel oils, cocoa, milk butters, lard, tallow, etc.)
Waxes
Natural vegetable and animal waxes: candelilla,
carnauba, jojoba bees,
Natural
resins
Asafoetida
Essential
oils and
liquorices
Camphor, mint, and citrus fruit essential oils
Emulsifiers
and surface
active
agents
Lecithins, mono- and diglycerides, mono- and diglyceride
esters
Jan 9, 2019 19
Cocoa based coatings
•Cocoa butter is a polymorphic fat.
•The four polymorphs of cocoa butter are
1. form
2. form
3. form
4. form
Jan 9, 2019 20
•Cocoa butter is a polymorphic fat.
•The four polymorphs of cocoa butter are
1. form
2. form
3. form
4. form
Jan 9, 2019 20
Indian Institute of Natural Resins and Gums
IINRG
It is a nodal institute at national level for research
and development on all aspects of natural lac and
other natural gums and resins
Jan 9, 2019 21
IINRG
It is a nodal institute at national level for research
and development on all aspects of natural lac and
other natural gums and resins
Jan 9, 2019 21
Polysaccharide Gum-based Edible Coatings
Jan 9, 2019 22
Jan 9, 2019 22
Coating Application
Jan 9, 2019 23
Jan 9, 2019 23
Coating Processes
Terms Industry Process
Enrobing Chocolate Enrobe
Encapsulation Food ingredient Various systems
Panning Confectionary Pan
Seasoning Snack Screw
Breading Prepared meals Duster or coater
Jan 9, 2019 24
Terms Industry Process
Enrobing Chocolate Enrobe
Encapsulation Food ingredient Various systems
Panning Confectionary Pan
Seasoning Snack Screw
Breading Prepared meals Duster or coater
Jan 9, 2019 24
Parameters to be Controlled during Coating
Operation
Jan 9, 2019 25
Product
Operation
Jan 9, 2019 25
Product
Coating Techniques Based on Size
Jan 9, 2019 26
Product size (mm)
0.1 0.5 1 10 50 100+
Pan
Drum
Screw
Enrober
Extruder
Fluidised Bed
Spray
Jan 9, 2019 26
Product size (mm)
0.1 0.5 1 10 50 100+
Pan
Drum
Screw
Enrober
Extruder
Fluidised Bed
Spray
Methods of Coating
Enrobing
Pan coating
Drum coating
Fluidised bed coating
Spray coating
Jan 9, 2019 27
Enrobing
Pan coating
Drum coating
Fluidised bed coating
Spray coating
Jan 9, 2019 27
Enrober
Jan 9, 2019 28
Jan 9, 2019 28
Pan Coater
Jan 9, 2019 29
Jan 9, 2019 29
Drum Coater
Jan 9, 2019 30
Jan 9, 2019 30
Fluidised Bed Coater
Jan 9, 2019 31
Jan 9, 2019 31
Spray Coater
Jan 9, 2019 32
Jan 9, 2019 32
Coating of Probiotics
Jan 9, 2019 33
Jan 9, 2019 33
Enrobing of Fruits and Vegetables
•Enrobing of intact and fresh
cut fruits & vegetables is a
good alternative for
preservation.
• Edible coatings consists of
applying a thin layer of edible
material.
•It involves casting a film of
edible material to cover the
commodity.
•Purpose of enrobing fruits &
vegetables is to retard transfer
of gas, vapour and volatiles.
Jan 9, 2019 34
•Enrobing of intact and fresh
cut fruits & vegetables is a
good alternative for
preservation.
• Edible coatings consists of
applying a thin layer of edible
material.
•It involves casting a film of
edible material to cover the
commodity.
•Purpose of enrobing fruits &
vegetables is to retard transfer
of gas, vapour and volatiles.
Jan 9, 2019 34
Classification of some Antimicrobial, Antioxidants agents and
Additives allowed for use in Food Coating
Food additives Classification
Benzoic acid Preservatives
Clove bud oil Essential oil
Potassium sorbate Preservatives
Propionic acid Preservatives
Calcium chloride Antimicrobial agent
Butylated hydroxyanisole (BHA) Antioxidant
Ascorbic acid
Antioxidant, preservatives, color stabilizer,
nutrient
Butylated hydroxytoluene Antioxidant
Jan 9, 2019 35
Additives allowed for use in Food Coating
Food additives Classification
Benzoic acid Preservatives
Clove bud oil Essential oil
Potassium sorbate Preservatives
Propionic acid Preservatives
Calcium chloride Antimicrobial agent
Butylated hydroxyanisole (BHA) Antioxidant
Ascorbic acid
Antioxidant, preservatives, color stabilizer,
nutrient
Butylated hydroxytoluene Antioxidant
Jan 9, 2019 35
Factors Affecting the Properties of Edible
Coatings and Films
Jan 9, 2019 36
Coatings and Films
Jan 9, 2019 36
Main components of Edible Coatings and Films for Intact
and Minimally Processed Fruits and Vegetables
Jan 9, 2019 37
MC
HPC
HPMC
CMC
Alginate
Pectin
Zein
Gluten
Soy
Whey
Casein
Beeswax
Carnauba
Shellac
MC: Methylcellulose HPMC: Hydroxypropylmethylcellulose
HPC: Hydroxypropylcellulose, CMC: Carboxymethylcellulose)
and Minimally Processed Fruits and Vegetables
Jan 9, 2019 37
MC
HPC
HPMC
CMC
Alginate
Pectin
Zein
Gluten
Soy
Whey
Casein
Beeswax
Carnauba
Shellac
MC: Methylcellulose HPMC: Hydroxypropylmethylcellulose
HPC: Hydroxypropylcellulose, CMC: Carboxymethylcellulose)
Methods of application
of edible coatings and
films
1.Foaming
2.Dipping
3.Spraying
4.Casting
5.Brushing
6.Individual wrapping/
rolling
Jan 9, 2019 38
Enrobing of Meat and Poultry
of edible coatings and
films
1.Foaming
2.Dipping
3.Spraying
4.Casting
5.Brushing
6.Individual wrapping/
rolling
Jan 9, 2019 38
Enrobing of Meat and Poultry
Jan 9, 2019 39
Foaming
Dipping
Spraying
Brushing
Individual wrapping
M
e
t
h
o
d
o
f
a
p
p
l
i
c
a
t
i
o
n
s
Foaming
Dipping
Spraying
Brushing
Individual wrapping
M
e
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o
d
o
f
a
p
p
l
i
c
a
t
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n
s
Enrobing materials used in Meat and Meat Products
Enrobing Material
Meat / Meat
products
Benefits Source
Starch + alginate
tocopherol
Beef patties
Reduced lipid
oxidation and
warmed over flavour
Hergens-Madsen et
al., 1995
Wheat gluten, soy
protein,
carrageenan, and
chitosan
Precooked beef
patties
Reduced lipid
oxidation and
moisture loss
Wu et al., 2000
Carboxymethycellulos
e
Pork patties
Moisture barrier,
improved
sensory attributes
Biswas et al., 2004
Bengal gram and rice
flour
Buffalo meat
patties
Moisture and fat
uptake barrier,
improved sensory
attributes
Chidanandaiah and
Keshri, 2006
Bengal gram flour Chicken patties
Moisture and fat
uptake barrier
Raut et al., 2011
Enrobing Material
Meat / Meat
products
Benefits Source
Starch + alginate
tocopherol
Beef patties
Reduced lipid
oxidation and
warmed over flavour
Hergens-Madsen et
al., 1995
Wheat gluten, soy
protein,
carrageenan, and
chitosan
Precooked beef
patties
Reduced lipid
oxidation and
moisture loss
Wu et al., 2000
Carboxymethycellulos
e
Pork patties
Moisture barrier,
improved
sensory attributes
Biswas et al., 2004
Bengal gram and rice
flour
Buffalo meat
patties
Moisture and fat
uptake barrier,
improved sensory
attributes
Chidanandaiah and
Keshri, 2006
Bengal gram flour Chicken patties
Moisture and fat
uptake barrier
Raut et al., 2011
Benefits of Enrobing
1.Reduce water loss
2.Reduce gas diffusion
3.Reduce movement of oils and fats
4.Reduce loss of volatile flavours and aromas
5.Improve structural properties
6.Incorporate food additives
7.Improve appearance
8.Reduce adhesion to cooking surface
Jan 9, 2019 41
1.Reduce water loss
2.Reduce gas diffusion
3.Reduce movement of oils and fats
4.Reduce loss of volatile flavours and aromas
5.Improve structural properties
6.Incorporate food additives
7.Improve appearance
8.Reduce adhesion to cooking surface
Jan 9, 2019 41
Some Commercial Edible Coatings and Films
Commercial name Composition Uses Website Logo
Natureseal
Ascorbic acid,
calcium chloride,
hydroxypropyl
methylcellulose
Browning
inhibition,
maintain taste,
texture and colour
of fresh fruits and
vegetables
www.natureseal.com
Semperfresh TM
Sucrose esters of
short chain
unsaturated fatty
acids and sodium
salts of
carboxymethyl
cellulose
Coating of whole
pears and cherries
to control weight
loss and excess
respiration, retain
moisture, and
preserve natural
colour fruit
www.paceint.com
Jan 9, 2019 42
Commercial name Composition Uses Website Logo
Natureseal
Ascorbic acid,
calcium chloride,
hydroxypropyl
methylcellulose
Browning
inhibition,
maintain taste,
texture and colour
of fresh fruits and
vegetables
www.natureseal.com
Semperfresh TM
Sucrose esters of
short chain
unsaturated fatty
acids and sodium
salts of
carboxymethyl
cellulose
Coating of whole
pears and cherries
to control weight
loss and excess
respiration, retain
moisture, and
preserve natural
colour fruit
www.paceint.com
Jan 9, 2019 42
Cont..
Commercial
name
Composition Uses Website Logo
Pro-long TM
Sucrose
polyesters of
fatty acids and
sodium salts of
carboxy-methyl
cellulose
Coating for
fresh fruits and
vegetables
www.matrose.com
Crystalac Zein
Confectionary
glaze
www.matrose.com
Origami wraps
Fruits and
vegetables
based films with
bilayer protein
films
Wrapping,
pouches
www.origamifoods.com
Jan 9, 2019 43
Commercial
name
Composition Uses Website Logo
Pro-long TM
Sucrose
polyesters of
fatty acids and
sodium salts of
carboxy-methyl
cellulose
Coating for
fresh fruits and
vegetables
www.matrose.com
Crystalac Zein
Confectionary
glaze
www.matrose.com
Origami wraps
Fruits and
vegetables
based films with
bilayer protein
films
Wrapping,
pouches
www.origamifoods.com
Jan 9, 2019 43
Case studies
Jan 9, 2019 44
Case Studies
Jan 9, 2019 44
Case Studies
Case study: 1
Author: Raut et al.,
Publication: Tamilnadu J. Veterinary & Animal Sciences 7
(3) 176-179, July - August, 2011
Objective: Effect of batter consistency as enrobing on
quality of chicken patties
Jan 9, 2019 45
Author: Raut et al.,
Publication: Tamilnadu J. Veterinary & Animal Sciences 7
(3) 176-179, July - August, 2011
Objective: Effect of batter consistency as enrobing on
quality of chicken patties
Jan 9, 2019 45
METHODS AND MATERIALS
Chicken carcasses
Cleaning (Body fat, tendons and connective tissues)
Deboning
Chilling (20 hrs. at 4+1
o
C in refrigerator)
Cut in to chunks and mincing
Patties moulding (Size: 80 mm × 17mm)
(Formulation: 7.5% soy flour, 1.07% common salt, 0.38% STPP, 100 ppm NaNo
3
, 3.84
vegetable oil, 1.5 % spice mix and 5.75% condiments)
Jan 9, 2019 46
Chicken carcasses
Cleaning (Body fat, tendons and connective tissues)
Deboning
Chilling (20 hrs. at 4+1
o
C in refrigerator)
Cut in to chunks and mincing
Patties moulding (Size: 80 mm × 17mm)
(Formulation: 7.5% soy flour, 1.07% common salt, 0.38% STPP, 100 ppm NaNo
3
, 3.84
vegetable oil, 1.5 % spice mix and 5.75% condiments)
Jan 9, 2019 46
Enrobing with Bengal gram and water at different ratio
(1:1.0, 1:1.1, 1:1.2, 1:1.3 and 1:1.4)
Deep-frying a temperature of (150 - 160
o
C for 5-7 min)
Cooled at room temperature
Jan 9, 2019 47
Cont…
(1:1.0, 1:1.1, 1:1.2, 1:1.3 and 1:1.4)
Deep-frying a temperature of (150 - 160
o
C for 5-7 min)
Cooled at room temperature
Jan 9, 2019 47
Cont…
Results
Table 1: Effect of batter consistency as enrobing on physico-chemical
qualities of chicken patties
Jan 9, 2019 48
Batter consistency pH
Cooking
yield (%)
Moisture
(%)
Protein
(%)
Fat (%)
1:1.0
6.24110.2763.45 21.04 10.70
1:1.1
6.23110.1163.03 21.60 10.96
1:1.2
6.20109.1062.57 21.84 11.36
1:1.3
6.20108.0162.22 22.52 11.74
1:1.4
6.19 107.0162.00 22.70 12.01
Table 1: Effect of batter consistency as enrobing on physico-chemical
qualities of chicken patties
Jan 9, 2019 48
Batter consistency pH
Cooking
yield (%)
Moisture
(%)
Protein
(%)
Fat (%)
1:1.0
6.24110.2763.45 21.04 10.70
1:1.1
6.23110.1163.03 21.60 10.96
1:1.2
6.20109.1062.57 21.84 11.36
1:1.3
6.20108.0162.22 22.52 11.74
1:1.4
6.19 107.0162.00 22.70 12.01
•Table 2: Effect of batter consistency as enrobing on sensory qualities
of chicken patties
Jan 9, 2019 49
Batter consistency Appearance Flavour Juiciness Texture
Overall
acceptability
01:1.0 6.8 6 6.4 6.6 5.8
01:1.1 7.05 6.65 7.1 7 6.2
01:1.2 7.25 7.05 7.4 7.45 6.9
01:1.3 7.45 7.2 7.8 7.6 7.25
01:1.4 6.25 5.8 5.9 6 5.45
of chicken patties
Jan 9, 2019 49
Batter consistency Appearance Flavour Juiciness Texture
Overall
acceptability
01:1.0 6.8 6 6.4 6.6 5.8
01:1.1 7.05 6.65 7.1 7 6.2
01:1.2 7.25 7.05 7.4 7.45 6.9
01:1.3 7.45 7.2 7.8 7.6 7.25
01:1.4 6.25 5.8 5.9 6 5.45
•BISWAS, A.K., 2002, Studies on enrobing of pork patties. Unpublished M.V.Sc.
Thesis, Indian Veterinary Research Institute (Deemed University), Izatnagar.
•CUNNINGHAM, F.E., 1989, Developments in enrobed products. In: Processing
of poultry. Elsevier Applied Science, London, pp: 325-359.
•DONHOWE, I.G , AND FENNEMA, O., 1994, Edible films and coatings:
Characteristics, formation, definitions and testing methods. In: Edible Coatings
and Films to Improve Food Quality. Technomic Publishing , Lancaster, PA , pp 1
– 24 Earle RD July 30, 1968.
•LEE, S.Y., AND KROCHTA, J.M., 2002, Accelerated shelf-life testing of whey-
protein-coated peanuts analyzed by static headspace gas chromatography, J Agric
Food Chem 50 (7): 2022 – 2028
Jan 9, 2019 50
References
Thesis, Indian Veterinary Research Institute (Deemed University), Izatnagar.
•CUNNINGHAM, F.E., 1989, Developments in enrobed products. In: Processing
of poultry. Elsevier Applied Science, London, pp: 325-359.
•DONHOWE, I.G , AND FENNEMA, O., 1994, Edible films and coatings:
Characteristics, formation, definitions and testing methods. In: Edible Coatings
and Films to Improve Food Quality. Technomic Publishing , Lancaster, PA , pp 1
– 24 Earle RD July 30, 1968.
•LEE, S.Y., AND KROCHTA, J.M., 2002, Accelerated shelf-life testing of whey-
protein-coated peanuts analyzed by static headspace gas chromatography, J Agric
Food Chem 50 (7): 2022 – 2028
Jan 9, 2019 50
References
•MORILLON, V., DEBEAUFORT, F., BLOND, G., CAPELLE, M., AND
VOILLEY, A., 2002, Factors affecting the moisture permeability of lipid-
based edible films: a review. Crit. Rev. Food Sci. Nutr , 42 (1) : 67 – 89
•PARK, H.J., 1999, Development of advanced edible coatings for fruits .
Trends in Food Science and Technology, 10: 254 – 260
•YADAV, S., AND SHARMA, D.P., 2008, Effect of enrobing with and
without preservatives on the quality characteristics of chicken patties.
Indian Journal of Poultry Science, 43: 333-338.
•Raut K.A., Raziuddin M. and Zanjad P.N., 2011, Effect of batter
consistency as enrobing on quality of chicken patties. Tamilnadu J.
Veterinary & Animal Sciences 7 (3) 176-179
Jan 9, 2019 51
VOILLEY, A., 2002, Factors affecting the moisture permeability of lipid-
based edible films: a review. Crit. Rev. Food Sci. Nutr , 42 (1) : 67 – 89
•PARK, H.J., 1999, Development of advanced edible coatings for fruits .
Trends in Food Science and Technology, 10: 254 – 260
•YADAV, S., AND SHARMA, D.P., 2008, Effect of enrobing with and
without preservatives on the quality characteristics of chicken patties.
Indian Journal of Poultry Science, 43: 333-338.
•Raut K.A., Raziuddin M. and Zanjad P.N., 2011, Effect of batter
consistency as enrobing on quality of chicken patties. Tamilnadu J.
Veterinary & Animal Sciences 7 (3) 176-179
Jan 9, 2019 51
Jan 9, 2019 52
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you
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you
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