Produksi Asam Fosfat Kelas Pangan

Asam tajam di balik minuman cola

Food Processing & Preservation Global Industrial Scale $3.8 billion

Ikhtisar

Food-grade phosphoric acid is produced by the thermal (furnace) process, burning elemental phosphorus in air and absorbing the resulting P₂O₅ in water. Unlike the cheaper wet process used for fertilizers, the thermal process yields high-purity acid suitable for food and beverage applications. Phosphoric acid is the characteristic acidulant in cola beverages, providing the sharp, tangy taste. It is also used in processed cheese, jams, and as a pH adjuster in numerous food products.

Proses Kimia

Elemental phosphorus (P₄) is burned in excess air at 1,500-1,800 degrees C to form phosphorus pentoxide (P₄O₁₀). The hot gas is hydrated by spraying with dilute phosphoric acid in a stainless steel absorption tower, producing concentrated phosphoric acid (75-85% H₃PO₄). The product is cooled, polished, and tested to meet food-grade specifications.

P₄ + 5O₂ → P₄O₁₀ (ΔH = −2,984 kJ/mol)
P₄O₁₀ + 6H₂O → 4H₃PO₄

Bahan Baku

  • Elemental phosphorus (P₄) — Electric arc furnace reduction of phosphate rock (Reactant)
  • Air (O₂) — Atmosphere (Oxidant)
  • Water (H₂O) — Purified water (Hydration medium)

Produk Akhir

  • Food-grade phosphoric acid (H₃PO₄) — Cola beverages, processed foods, pH adjustment (75-85% concentration, food-grade purity)
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Environmental Impact

The thermal process is energy-intensive, requiring electricity for phosphorus production in electric arc furnaces. However, it produces minimal waste compared to the wet process, which generates large quantities of phosphogypsum. Fluorine emissions from phosphate rock require scrubbing.

Pertimbangan Keselamatan

Inovasi Terbaru

Membrane purification of wet-process phosphoric acid is emerging as a lower-cost alternative to the thermal process for food-grade production.
Superphosphoric acid (105% H₃PO₄ equivalent) production for concentrated liquid fertilizers uses similar technology.

Skala Produksi

2000000

ton/tahun

$3.8 billion

nilai pasar

Lebih banyak di %(name)s Food Processing & Preservation

Frequently Asked Questions

What industry uses Produksi Asam Fosfat Kelas Pangan?
Produksi Asam Fosfat Kelas Pangan is used in the food processing & preservation sector at global industrial scale scale.
What process is involved in Produksi Asam Fosfat Kelas Pangan?
Elemental phosphorus (P₄) is burned in excess air at 1,500-1,800 degrees C to form phosphorus pentoxide (P₄O₁₀). The hot gas is hydrated by spraying with dilute phosphoric acid in a stainless steel absorption tower, producing concentrated phosphoric acid (75-85% H₃PO₄). The product is cooled, polish
What is the economic significance of Produksi Asam Fosfat Kelas Pangan?
Produksi Asam Fosfat Kelas Pangan has a market value of $3.8 billion and annual production of 2,000,000 tons.
What is the environmental impact of Produksi Asam Fosfat Kelas Pangan?
The thermal process is energy-intensive, requiring electricity for phosphorus production in electric arc furnaces. However, it produces minimal waste compared to the wet process, which generates large quantities of phosphogypsum. Fluorine emissions from phosphate rock require scrubbing.
What raw materials are used in Produksi Asam Fosfat Kelas Pangan?
The main raw materials include: Elemental phosphorus (P₄), Air (O₂), Water (H₂O).