Comparing E331 - Sodium citrates vs E330 - Citric acid

Overview

E331 - Sodium citrates

Sodium citrates (E331) are the sodium salts of citric acid. They control acidity, help foods stay stable, and make processed cheese melt smoothly. You’ll find them in drinks, dairy, and many everyday packaged foods.

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E330 - Citric acid

Citric acid (E330) is a tart, sour-tasting acid found naturally in citrus fruits and used widely in foods and drinks. It helps control acidity, keeps flavors bright, and protects color and freshness in many products.

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Synonyms
E331
Sodium citrates
E330
Citric acid
Functions
acidity regulatoremulsifying saltsequestrantstabilizer
acidity regulatorsequestrant
Origins
Plant
Microbiological
Plant
Microbiological
Products

Found in 14,247 products

Found in 95,503 products

Search rank & volume
#388170 / mo🇺🇸U.S.
#1996.8K / mo🇺🇸U.S.
Awareness score

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Search volume over time

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Interest over time for 2 keywords in U.S. during the last 10 years.

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Popular questions

  1. What is e331 in food?

    E331 is sodium citrates—the mono-, di-, and trisodium salts of citric acid—used mainly as acidity regulators/buffers, sequestrants, and emulsifying salts in foods like soft drinks and processed cheese.

  2. How are sodium citrates used in molecular gastronomy?

    They’re used to adjust and buffer pH, chelate calcium, and act as an emulsifying salt—commonly to make ultra-smooth, meltable cheese sauces and to tune acidity/calcium levels for techniques like spherification and stabilizing foams.

  3. What are sodium citrates degradation byproducts?

    Under normal food use they’re stable; with strong heating/combustion they decompose to carbon oxides (CO2/CO) and sodium oxides (and related inorganic residues).

  4. Why does sodium citrates burn?

    It isn’t flammable; any “burning” sensation typically comes from irritation of skin, eyes, or mouth at high concentrations due to its mildly alkaline, saline nature, and on heating it decomposes rather than sustaining a flame.

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  1. Is citric acid bad for you?

    At typical food levels, citric acid (E330) is considered safe by major regulators (GRAS; EFSA/JECFA). Concentrated or frequent acidic exposure can irritate the mouth/stomach or contribute to tooth enamel erosion.

  2. Where does the citric acid cycle occur?

    In eukaryotic cells it occurs in the mitochondrial matrix; in bacteria it occurs in the cytosol.

  3. What does citric acid do to your body?

    It is a normal intermediate in energy metabolism and is readily metabolized to carbon dioxide and water. Citrate can bind minerals, which may enhance absorption of some and help prevent certain kidney stones by increasing urinary citrate.

  4. Where does citric acid come from?

    It occurs naturally in citrus fruits, but most food-grade citric acid is produced by fermenting sugars (e.g., from corn, beet, or cane) with Aspergillus niger.

  5. How is citric acid made?

    Industrially, sugars are fermented with Aspergillus niger to produce citric acid, then it is recovered and purified—often by precipitating calcium citrate and converting it back with sulfuric acid or via ion-exchange/crystallization.

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