Phosphatdüngerproduktion (Superphosphat und DAP)
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Erschließung von Bodenphosphor für die globale Ernteerzeugung
Übersicht
Phosphate fertilizers are produced by treating phosphate rock (fluorapatite) with sulfuric acid to create single superphosphate (SSP), or with phosphoric acid to create triple superphosphate (TSP) and diammonium phosphate (DAP). Phosphorus is essential for plant energy transfer (ATP), root development, and seed formation. Global phosphate rock reserves are concentrated in Morocco (70%), and concerns about peak phosphorus supply have prompted efforts to improve phosphorus recycling from agricultural and wastewater sources.
Chemischer Prozess
For SSP: finely ground phosphate rock is mixed with 70% sulfuric acid in a continuous mixer (den process). The mixture sets and cures for 3-6 weeks. For DAP: phosphate rock is digested with sulfuric acid to produce phosphoric acid (wet process), which is then neutralized with ammonia. The slurry is granulated, dried, and screened.
H3PO4 + 2NH3 -> (NH4)2HPO4 (DAP production)
Rohstoffe
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Phosphate rock (Ca5(PO4)3F, fluorapatite) — Mining (Morocco, China, US, Russia) (Phosphorus source (30-37% P2O5))
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Sulfuric acid (H2SO4) — Contact process from sulfur (Acid digestion agent)
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Ammonia (NH3) — Haber-Bosch process (Nitrogen source for DAP/MAP)
Endprodukte
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Single superphosphate (SSP) — Direct-application phosphorus fertilizer (16-20% P2O5, also provides sulfur and calcium)
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Diammonium phosphate (DAP, (NH4)2HPO4) — High-analysis NP fertilizer (18% N, 46% P2O5)
Environmental Impact
Phosphate mining disturbs large land areas and generates phosphogypsum waste (5 tons per ton of P2O5), which contains naturally occurring radioactive materials (NORM). Phosphorus runoff from overfertilized fields causes eutrophication of lakes and rivers. Fluoride and cadmium impurities in phosphate rock require management.
Sicherheitshinweise
- ⚠ Sulfuric acid is highly corrosive -- severe burns on contact
- ⚠ Hydrogen fluoride (HF) released during rock digestion is extremely toxic
- ⚠ Ammonia handling during DAP production presents inhalation hazards
- ⚠ Phosphogypsum waste piles pose stability and radiation risks
Neuere Innovationen
Slow-release phosphorus fertilizers reduce runoff losses.
Phosphorus recovery from wastewater (struvite crystallization) creates a circular economy.
Biochar and mycorrhizal inoculants improve plant phosphorus uptake efficiency, reducing fertilizer requirements.
Produktionsmaßstab
50000000
Tonnen/Jahr
$25 billion
Marktwert
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