Sintesis Amonia Haber-Bosch

Proses yang memberi makan setengah populasi dunia

Agriculture & Fertilizers Global Industrial Scale $75 billion

Ikhtisar

The Haber-Bosch process synthesizes ammonia from atmospheric nitrogen and hydrogen gas at high temperature and pressure over an iron catalyst. Developed by Fritz Haber and Carl Bosch in 1909-1913, it is arguably the most important chemical process in human history -- approximately 50% of the nitrogen atoms in the human body passed through a Haber-Bosch reactor. The process consumes about 1.4% of global energy production and is responsible for roughly 1.8% of global CO2 emissions, making it a key target for decarbonization.

Proses Kimia

Natural gas is steam-reformed to produce hydrogen (H2 + CO), followed by water-gas shift and CO2 removal to obtain pure N2:H2 (1:3) synthesis gas. The gas is compressed to 150-300 bar and passed over a promoted iron catalyst (Fe3O4 with K2O, Al2O3, CaO promoters) at 400-500 degrees C. Single-pass conversion is only 15-25%, so unreacted gas is recycled. Ammonia is condensed out at -33 degrees C.

N2 + 3H2 <=>[Fe catalyst, 450 degrees C, 200 bar] 2NH3 (DeltaH = -92.2 kJ/mol, Le Chatelier: high pressure favors products, but kinetics require high temperature)

Bahan Baku

  • Nitrogen gas (N2) — Air separation or secondary reformer air feed (Nitrogen source (78% of air))
  • Hydrogen gas (H2) — Steam methane reforming of natural gas (Hydrogen source (3:1 H2:N2 ratio))
  • Iron catalyst (Fe3O4/K2O/Al2O3) — Magnetite reduction with promoters (Heterogeneous catalyst (lifespan 10-15 years))

Produk Akhir

  • Anhydrous ammonia (NH3) — Fertilizer production (80%), explosives, chemicals, refrigerant (Liquid under pressure or at -33 degrees C)
<path stroke-linecap="round" stroke-linejoin="round" d="M12 9v3.75m-9.303 3.376c-.866 1.5.217 3.374 1.948 3.374h14.71c1.73 0 2.813-1.874 1.948-3.374L13.949 3.378c-.866-1.5-3.032-1.5-3.898 0L2.697 16.126zM12 15.75h.007v.008H12v-.008z" />

Environmental Impact

The Haber-Bosch process consumes approximately 3-5% of global natural gas production. CO2 emissions total approximately 450 million tons/year from hydrogen production. Excess nitrogen fertilizer from ammonia causes eutrophication of waterways, ocean dead zones, and N2O emissions (a greenhouse gas 298x more potent than CO2).

Pertimbangan Keselamatan

Inovasi Terbaru

Green ammonia using hydrogen from water electrolysis powered by renewable energy could eliminate CO2 emissions.
Electrochemical nitrogen reduction at ambient conditions is being researched.
Ruthenium catalysts offer higher activity at lower pressures than iron.

Skala Produksi

185000000

ton/tahun

$75 billion

nilai pasar

Lebih banyak di %(name)s Agriculture & Fertilizers

Frequently Asked Questions

What industry uses Sintesis Amonia Haber-Bosch?
Sintesis Amonia Haber-Bosch is used in the agriculture & fertilizers sector at global industrial scale scale.
What process is involved in Sintesis Amonia Haber-Bosch?
Natural gas is steam-reformed to produce hydrogen (H2 + CO), followed by water-gas shift and CO2 removal to obtain pure N2:H2 (1:3) synthesis gas. The gas is compressed to 150-300 bar and passed over a promoted iron catalyst (Fe3O4 with K2O, Al2O3, CaO promoters) at 400-500 degrees C. Single-pass co
What is the economic significance of Sintesis Amonia Haber-Bosch?
Sintesis Amonia Haber-Bosch has a market value of $75 billion and annual production of 185,000,000 tons.
What is the environmental impact of Sintesis Amonia Haber-Bosch?
The Haber-Bosch process consumes approximately 3-5% of global natural gas production. CO2 emissions total approximately 450 million tons/year from hydrogen production. Excess nitrogen fertilizer from ammonia causes eutrophication of waterways, ocean dead zones, and N2O emissions (a greenhouse gas 29
What raw materials are used in Sintesis Amonia Haber-Bosch?
The main raw materials include: Nitrogen gas (N2), Hydrogen gas (H2), Iron catalyst (Fe3O4/K2O/Al2O3).