Synthèse de l'Urée à partir d'Ammoniac et de Dioxyde de Carbone
Embed This Widget
Add the script tag and a data attribute to embed this widget.
Embed via iframe for maximum compatibility.
<iframe src="https://chemfyi.com/iframe/entity//" width="420" height="400" frameborder="0" style="border:0;border-radius:10px;max-width:100%" loading="lazy"></iframe>
Paste this URL in WordPress, Medium, or any oEmbed-compatible platform.
https://chemfyi.com/entity//
Add a dynamic SVG badge to your README or docs.
[](https://chemfyi.com/entity//)
Use the native HTML custom element.
L'engrais azoté solide le plus consommé au monde
Aperçu
Urea is the world's most widely used solid nitrogen fertilizer, produced by reacting ammonia with carbon dioxide at high temperature and pressure. The process conveniently uses the CO2 byproduct from hydrogen production in ammonia synthesis, making urea plants typically co-located with ammonia plants. Urea contains 46% nitrogen (the highest of any solid fertilizer), is non-explosive, highly water-soluble, and easy to handle and apply. It is also used in animal feed, urea-formaldehyde resins, and diesel exhaust fluid (DEF/AdBlue).
Procédé chimique
Ammonia and CO2 (molar ratio 3-4:1) react at 180-210 degrees C and 140-250 bar in a high-pressure reactor to form ammonium carbamate, which dehydrates to urea. Single-pass conversion is approximately 65%. Unconverted carbamate is decomposed and recycled. The urea solution is concentrated by evaporation and formed into prills (spray tower) or granules (fluid bed).
NH2COONH4 <=>[dehydration] CO(NH2)2 + H2O (urea formation, slow, equilibrium limited)
Matières premières
-
Ammonia (NH3) — Haber-Bosch process (Nitrogen source)
-
Carbon dioxide (CO2) — Byproduct of steam methane reforming for H2 (Carbon source)
Produits finis
-
Urea prills or granules (CO(NH2)2) — Nitrogen fertilizer, animal feed, DEF/AdBlue, resins (46% N, the highest of any solid fertilizer)
Environmental Impact
Urea application to soil generates N2O (a potent greenhouse gas) through nitrification and denitrification. Ammonia volatilization from surface-applied urea wastes nitrogen and contributes to particulate matter formation. Urease inhibitors and controlled-release coatings can reduce these losses by 30-50%.
Considérations de sécurité
- ⚠ High-pressure reactor operation (140-250 bar) with corrosive ammonium carbamate
- ⚠ Ammonia toxicity and flammability risks
- ⚠ Urea dust in prill towers can cause respiratory irritation
- ⚠ Molten urea at 130+ degrees C during prilling causes burn hazard
Innovations récentes
Urease inhibitors (NBPT) applied to urea granules reduce ammonia volatilization by 50%.
Polymer-coated urea provides controlled nitrogen release matching crop demand.
CO2 capture from flue gas for urea production could expand supply while reducing emissions.
Échelle de production
190000000
tonnes/an
$60 billion
valeur marchande
Plus dans Agriculture & Fertilizers
Amélioration de la Fixation Biologique de l'Azote (Inoculants à Rhizobium)
Global Industrial Scale
Chaux Agricole pour la Correction du pH du Sol
Global Industrial Scale
Production de Fongicide au Sulfate de Cuivre (Bouillie Bordelaise)
Global Industrial Scale
Production d'Engrais Phosphatés (Superphosphate et DAP)
Global Industrial Scale
Synthèse de l'Ammoniac Haber-Bosch
Global Industrial Scale
Synthèse d'Insecticide Pyréthroïde
Global Industrial Scale
Synthèse du Glyphosate Herbicide
Global Industrial Scale