Acidulants are food additives that are used to regulate acidity or pH levels in foods. Common acidulants include citric acid, acetic acid, phosphoric acid, and tartaric acid. The document discusses the functions and uses of various acidulants in foods. It provides information on how acidulants interact with other food constituents like proteins, lipids, carbohydrates, and vitamins. Guidelines are presented on selecting the appropriate acidulant based on the major function required, compatibility with the food system, processing considerations, and legal requirements.
4. Produced by either:
1. Reducing phosphate rock to elementary phosphorus in blast furnace
2. Treating phosphate rock with sulphuric acid
Phosphoric Acid (E338)
5. Acetic Acid (E260)
2. Anti-browning agent
Used as a preservative
1. Sterilizing Acid
Prevent /retard growth of microorganism by reducing pH
Inhibit oxidation reactions which lead to enzymatic and
non-enzymatic browning reactions
6. Tricalcium Citrate (E333iii)
2. Antioxidant Synergist
Used as a chelating agent & antioxidant synergist
1. Chelating Agent
Useful in retarding enzymatic browning of fruits and vegetables
Used as synergists when combined with antioxidants (e.g.
ascorbates, BHA, BHT
Partly due to the lowering of redox potential but more so on
sequestering of metal ions
7. Tartaric Acid (E334)
Used as a flavouring agent
Most water-soluble of the solid acidulants
Has a strong tart taste
Add the tartness required to balance the excessive sweetness in products
Ability to augment flavour of fruits
Commonly used in grape- and lime-flavoured beverages
Manufactured from the waste products of wine industry
8. Citric Acid (E330)
Used as a nutrient enhancer
When food contains ascorbic acid nutritive value is enhanced by
addition of acidulants
High solubility in water
Recovered from pineapple waste
9. Adipic Acid (E355)
Used as viscosity and melting modifier
Used as a leavening acidulant in baking powder
Also used to improve the melting characteristics and
texture of cheese spread
Produced commercially by nitric acid oxidation of
cyclohexanol
Used as a viscosity & melting modifier
10. Acidulant
Concentration
to be Added
(mg/kg)
Type of Food
Corresponding to the
Stated Concentration
Groups of Foods Where
They are Normally
Added
Phosphoric Acid
(E338)
880
1000
4400
6600
8800
Butter
Concentrate for fruit juice
Concentrate for fruit
nectar
Fruit juice
Fruit nectar
Dried whey and whey
products, excluding whey
cheeses
Powered sugar, powered
dextrose
Salt
Butter, Soft drinks, Fruit
juices, Cheese, Salt
Acetic Acid
(E260)
GMP
Whey protein cheese Vinegar, Canned fruit and
vegetables, Salad dressing
11. Acidulant
Concentration
to be Added
(mg/kg)
Type of Food
Corresponding to the
Stated Concentration
Groups of Foods Where
They are Normally
Added
Tricalcium citrate
(E333(ii))
GMP
Ice cream, wine, Jams,
Evaporated and condensed
milk, Milk powder,
Processed cheese
Tartaric acid
(E334)
4000
Concentrate for fruit juice
Concentrate for fruit
nectar
Fruit juice
Fruit nectar
Wine, Chocolate products,
Jams, Fruit nectar, Fruit juice
Citric Acid
(E330)
3000
5000
Concentrate for fruit juice
Fruit juice
Concentrate for fruit
nectar
Fruit nectar
Fruit juice, Jam, Candy
Adipic acid
(E355)
* No provisions
found
Processed cheese, Baking
powder, Edible oil, Meringue
12. Good Manufacturing Practices (GMP)
Good Manufacturing Practices (GMP) for food additives are described in Section
3.3 of the Preamble of the Codex General Standard for Food Additives as follows:
"All food additives subject to the provisions of this Standard shall be used under
conditions of good manufacturing practice, which include the following:
1. The quantity of the additive added to food shall be limited to the lowest possible
level necessary to accomplish its desired effect;
2. The quantity of the additive that becomes a component of food as a result of its
use in the manufacturing, processing or packaging of a food and which is not
intended to accomplish any physical, or other technical effect in the food itself, is
reduced to the extent reasonably possible; and,
3. The additive is prepared and handled in the same way as a food ingredient.“
(Adapted from Codex Alimentarius)
14. Protein
Alters the net charge and isoelectric point
Possible alterations of protein-solvent and protein-protein
balance and associated properties
Ascorbate or isoascorbate reduces nitrite, forming
hydroascorbic acid and nitric oxide
Hydroascorbic acid and nitric oxide + myoglobin
nitrosomyoglobin (under reducing conditions)
15. Protein
Without additives, fat separates from protein (Terrible!)
Upon heating, emulsifying capability of the proteins reduced
Structural viewpoint curd granule junction patterns and the original
fat globule membranes destroyed.
Melting salts
Very strong calcium-binding ability
Production of hard processed cheeses which contain fat in the form of
very small globules
Structural viewpoint Undissolved melting salt crystals may still be
evident
* Melting salts are NOT emulsifiers but RESTORE emulsifying ability of the milk proteins very
efficiently
16. Lipids
Synergist with antioxidants and oxygen scavengers
Arrest oxidation by chain termination or serve as oxygen scavengers
Phenolic antioxidant synergists since they remove metal ions and that
catalyze oxidation
Acidic salts (sodium or potassium phosphates) + acidulant aids in
regeneration of antioxidants
18. Carbohydrates
Alteration of the structure of foods including gels made from gums
(pectin, carrageenan), and proteins
Tartaric acid
Provides the hydrogen ion which is required by pectin in order to gel
Buffers the pH in order to prevent premature set of the jelly
Resulting system is highly pH stable and not readily affected by
processing conditions and slight variations of other ingredients.
Modification of sugar crystallization in hard candy manufacturing.
Citric acid
Serves as a catalyst for inducing sucrose inversion which is a critical
factor in the shelf life of the finished product
19. Vitamins
Retains vitamin activity and reduces vitamin loss
D isomer of ascorbic acid, isoascorbate or erythrobate, is
incorporated with ascorbic acid
More rapidly oxidized than ascorbic acid thus protects Vitamin C
Citric and malic acid also inhibits oxidation of vitamin C and
reduces vitamin loss
In multi-vitamin preparations, nicotinamide-ascorbic acid complex
serves as a source of both niacin and vitamin C
21. Hey! Can you do me
a favour and find
me an acidulant?
Why not?
You’re so mean!
Look
behind
you lah!
Don’t
want.
22. How Do I Select the Right Acidulant?
1.What is the major function
required in the food product?
23. 1. What is the major function required in the food product?
Function
No
Gelling/Coagulating Agent
Acid Regulator
Yes
What is the
target pH?
Acid
Strength
No
Chelating Agent
Yes
What is the metal
ion for chelation?
Fe2+, Cu2+, Ca2+ etc.
No
Flavouring Agent
Yes
What is the flavor
profile required?
Citrus, tart, sour,
mild, vinegar etc.
Degree of
Sourness
No
Yes
Antioxidant
What is the oxidation
mechanism?
Oxidative browning,
Saturation reaction
No
Others
Yes
What is the specific
function required?
Dough improver,
prevent sugar
crystallization in
hard candies etc.
Preservative
Yes
What are the target
microorganisms?
Yeast, mould,
bacteria
No
Buffer
Yes
Buffering Capacity
A List of Possible Acidulants for Use
24. 2. Which Acidulant is Compatible with the Food System?
Physical Form of Food
Powder, Granular, Crystals
Physical Form of
Acidulant
Solid/Powder
Hygroscopicity
of Acidulant
Yes
Solvent Type
No
Liquid
Water, Ethanol, Oil etc.
Solubility of
Acidulant
25. 3. What are the Processing Considerations for the Manufacturers?
Cost
Quality, Grade,
Purity &
Availability of
Acidulant
Imported or
Produced
Locally
Availability
Processing
Line
Physical Form,
Hygroscopicity
of Acidulant
Storage & Handling
Not forgetting
the consumers
too!
26. 4. Does the Selected Acidulant Meet Legal Requirements?
Permitted Additive
Food Legislations,
Sale of Food Act
Amounts of Acidulant Used to
Achieve Desired Function
Permitted Levels
30. How does citric acid prevent sugar
crystallization? Convert sucrose to invert sugar (glucose + fructose)
Decreases available moisture by 5%
Low pH & heat
++ H2O
Market price of sugars and citric acid
Market price
(S$/kg)
Usage level
(%)
Corn Syrup 14.80 18
Sucrose 1.3 55
Citric acid* 6 0.5
Source: eBay, NTUC Fairprice
*Additional Advantage:
Invert sugar 1.3 times
sweeter than sucrose
31. Compatibility with Food System
(Physical Properties)
Solubility
Water-
soluble
molecule
Physical
Form
Available
as
powder
Hygroscopicity
Highly
hygroscopic
Toxicology
Cause
gastrointestinal
irritation if
consumed in
large dosages
Stability
MP
~100˚C
33. Processing
Considerations
Cost
S$6/kg for Food
Grade Pure
Citric Acid
Powder
Availability
Fermentation
of molasses
with Aspergillus
niger
Storage and
Handling
Tight containers
in a cool, dry,
well-ventilated
area
36. Compatibility with Food System
(Physical Properties)
Solubility
Highly
water
soluble
Physical
Form
Liquid
Hygroscopicity
Non-
hygroscopic
Toxicology
High concentration at a low pH
have exhibited burned lips,
stomach, and intestinal
mucosa, corroded lung tissue,
and subsequent pneumonia
resulting from inhalation of
vapors
Stability
Volatile