高オクタン価ガソリンのための接触改質

低価値ナフサをプレミアムガソリン成分に変換する

Petrochemical & Refining Global Industrial Scale $150 billion

概要

Catalytic reforming converts low-octane naphtha into high-octane reformate for gasoline blending and produces hydrogen as a valuable byproduct. The process uses platinum-based catalysts (Pt-Re or Pt-Sn on alumina) to promote dehydrogenation, isomerization, and cyclization reactions that convert paraffins and naphthenes into aromatic compounds. The hydrogen produced is consumed in hydroprocessing units throughout the refinery. Nearly every refinery in the world operates at least one catalytic reformer.

化学プロセス

Desulfurized naphtha is heated to 480-530 degrees C and passed over Pt-Re/Al₂O₃ catalyst at 5-25 bar in a series of 3-4 reactors with interstage reheating. The reformate product is separated from hydrogen and light gases in a separator drum. The process is net hydrogen-producing.

C₆H₁₂ (cyclohexane) → C₆H₆ (benzene) + 3H₂ (dehydrogenation)
n-C₇H₁₆ → C₇H₈ (toluene) + 4H₂ (dehydrocyclization)

原材料

  • Heavy naphtha (C₆-C₁₂) — Crude distillation unit (Feedstock (60-90 RON))
  • Pt-Re/Al₂O₃ catalyst — Specialty catalyst manufacturers (Bifunctional catalyst)

最終製品

  • Reformate — Gasoline blending component (95-105 RON, rich in aromatics)
  • Hydrogen (H₂) — Hydrotreating and hydrocracking (85-90% purity, major refinery H₂ source)
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Environmental Impact

The process itself is energy-intensive due to the highly endothermic dehydrogenation reactions. Benzene in reformate is a regulated carcinogen, and refineries must control benzene content in gasoline. Spent platinum catalysts require specialized recovery and regeneration.

安全性の考慮事項

最新のイノベーション

Continuous catalyst regeneration (CCR) technology by UOP allows operation at lower pressures and higher severity, increasing aromatic yields and hydrogen production.
New Pt-Sn catalysts offer improved selectivity and longer cycle lengths.

生産規模

500000000

トン/年

$150 billion

市場価値

もっと見る Petrochemical & Refining

Frequently Asked Questions

What industry uses 高オクタン価ガソリンのための接触改質?
高オクタン価ガソリンのための接触改質 is used in the petrochemical & refining sector at global industrial scale scale.
What process is involved in 高オクタン価ガソリンのための接触改質?
Desulfurized naphtha is heated to 480-530 degrees C and passed over Pt-Re/Al₂O₃ catalyst at 5-25 bar in a series of 3-4 reactors with interstage reheating. The reformate product is separated from hydrogen and light gases in a separator drum. The process is net hydrogen-producing.
What is the economic significance of 高オクタン価ガソリンのための接触改質?
高オクタン価ガソリンのための接触改質 has a market value of $150 billion and annual production of 500,000,000 tons.
What is the environmental impact of 高オクタン価ガソリンのための接触改質?
The process itself is energy-intensive due to the highly endothermic dehydrogenation reactions. Benzene in reformate is a regulated carcinogen, and refineries must control benzene content in gasoline. Spent platinum catalysts require specialized recovery and regeneration.
What raw materials are used in 高オクタン価ガソリンのための接触改質?
The main raw materials include: Heavy naphtha (C₆-C₁₂), Pt-Re/Al₂O₃ catalyst.