new material
High-efficiency methanol synthesis catalyst is an advanced catalytic material designed for the selective conversion of synthesis gas (CO + H₂) into methanol with superior efficiency and stability. Engineered using optimized metal-supported formulations, it ensures enhanced reaction kinetics, optimized feedstock utilization, and prolonged operational lifespan for industrial applications. This catalyst plays a critical role in methanol production, petrochemical processing, and clean energy applications, providing reliable performance for large-scale continuous hydrogenation reactions.
Product Overview
The high-efficiency methanol synthesis catalyst uses alumina as a carrier, with copper as the primary active component, and is enhanced with special additives. By improving the preparation process, the catalyst's performance is significantly boosted. Particularly at low temperatures, the catalyst shows enhanced activity, increasing space-time yield and CO conversion rate. Its thermal stability is also improved. This catalyst not only has a long service life but also offers excellent selectivity, effectively reducing organic by-products and increasing methanol content in crude methanol. It is easy to reduce and operate, with high strength, minimal caking, and low pressure drop, helping to improve the production capacity of methanol plants.
Key Features
- High Activity: Especially at low temperatures, the catalyst's activity is significantly improved, increasing space-time yield and CO conversion rate.
- Long Service Life: Enhanced thermal stability ensures the catalyst maintains its high performance over extended periods.
- Low Organic By-products: Reduces the formation of organic by-products, improving methanol purity.
- Good Selectivity: Excellent selectivity ensures a higher methanol yield.
- Ease of Operation: Good reducibility, easy to operate, high strength, minimal caking, and low pressure drop.
Applications
- Methanol Synthesis: Widely used in methanol synthesis units processing feedstocks such as natural gas, coal-based syngas, and coke oven gas.
- Medium and Low-Pressure Methanol Processes: Suitable for medium and low-pressure methanol synthesis processes, including Lurgi and ICI processes, with activity comparable to international products.
- Petrochemical and Chemical Industries: Increases the yield and efficiency of methanol synthesis plants, suitable for large-scale industrial production.
| Physical and Chemical Properties | |
| Property Name | Value |
| Appearance | Black cylindrical |
| Size (mm) | ∮5 × (4–5) |
| Bulk Density (kg/L) | 1.30–1.5 |
| Radial Compressive Strength (N/cm) | ≥180 |
| Specific Surface Area (m²/g) | 70–90 |
| Process Conditions | Value |
| Pressure (MPa) | 10–25 |
| Temperature (℃) | 220–270 |
| Space Velocity (h⁻¹) | 10000–20000 |
