Production d'Acide Citrique par Fermentation avec Aspergillus niger
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L'acide organique le plus utilisé dans l'alimentation mondiale
Aperçu
Citric acid is the most produced organic acid globally, manufactured primarily through submerged fermentation of Aspergillus niger on sugar-based substrates. Used as an acidulant, flavoring agent, chelating agent, and preservative, citric acid is found in virtually every processed food and beverage. The fermentation process was industrialized by Pfizer in 1919, replacing extraction from Italian lemons. Over 70% of global production is consumed by the food and beverage industry.
Procédé chimique
Aspergillus niger is cultivated in stirred-tank bioreactors on molasses or glucose syrup at 28-30 degrees C for 6-10 days under manganese-deficient, high-sugar conditions. The broth is filtered, and citric acid is precipitated as calcium citrate by adding lime, then regenerated with sulfuric acid. The product is purified by carbon treatment and crystallization.
C₆H₈O₇ + 3Ca(OH)₂ → Ca₃(C₆H₅O₇)₂ + 6H₂O (precipitation)
Matières premières
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Sucrose/glucose syrup — Sugar refining or corn wet milling (Carbon source)
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Ammonium nitrate (NH₄NO₃) — Chemical synthesis (Nitrogen source)
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Calcium hydroxide (Ca(OH)₂) — Lime kiln (Precipitation agent)
Produits finis
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Citric acid monohydrate (C₆H₈O₇·H₂O) — Food acidulant and preservative (Food-grade, >99.5% purity)
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Trisodium citrate — Buffering agent in foods and pharmaceuticals (Derived product)
Environmental Impact
Fermentation generates large volumes of mycelial waste and calcium sulfate (gypsum) byproduct from the precipitation step. Modern plants use direct recovery by ion exchange or liquid-liquid extraction to eliminate gypsum waste. Wastewater has high BOD requiring biological treatment.
Considérations de sécurité
- ⚠ Sulfuric acid handling in the recovery step
- ⚠ Bioreactor contamination risk
- ⚠ Citric acid dust can irritate eyes and respiratory tract
- ⚠ Lime handling creates alkaline dust
Innovations récentes
Direct crystallization processes eliminating the calcium citrate precipitation step reduce waste by 50%.
Metabolically engineered Yarrowia lipolytica strains are being developed to produce citric acid from waste oils and fats.
Échelle de production
2500000
tonnes/an
$3.6 billion
valeur marchande
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