new material
Furaldehyde hydrogenation catalyst for dimethylfuran production is a high-performance catalytic material designed to selectively hydrogenate furaldehyde into dimethylfuran with optimized conversion efficiency and stability. Engineered using advanced metal-supported formulations, it enhances reaction kinetics, improves selectivity, and ensures prolonged operational lifespan for industrial applications. This catalyst is widely used in fine chemical synthesis, biofuel production, and pharmaceutical intermediate manufacturing, delivering reliable performance for continuous hydrogenation reactions.
Product Overview
The furaldehyde hydrogenation catalyst is specially designed for the hydrogenation of furaldehyde, widely used in continuous production processes under atmospheric pressure and low temperature conditions. This catalyst demonstrates excellent low-temperature activity, high yield, and long service life. It is suitable for use in tubular reactors and significantly enhances reaction efficiency and yield during industrial production of 2-methylfuran from furaldehyde. Additionally, the catalyst optimizes energy efficiency and reduces energy consumption. When the raw materials undergo desulfurization treatment, the catalyst's performance is further improved, increasing reaction selectivity and yield.
Key Features
- Excellent Low-Temperature Activity: Maintains high hydrogenation activity at lower temperatures, making it ideal for atmospheric pressure and low-temperature reaction conditions.
- High Yield: Improves product yield, maximizing resource utilization.
- Long Service Life: The catalyst offers extended operational life, with high temperature resistance and poison tolerance, reducing replacement frequency.
- High Mechanical Strength: The catalyst has excellent mechanical strength, minimizing breakage and preserving catalytic activity.
- Energy Savings and Increased Production: Effectively reduces energy consumption, enhancing production efficiency and overall economic benefits.
Applications
- Furaldehyde Hydrogenation to Dimethylfuran: Widely used in the continuous production of 2-methylfuran from furaldehyde, meeting industrial production requirements.
- Fine Chemical Production: Suitable for hydrogenation reactions of other oxygen-containing chemicals, improving product purity and yield.
- Green Chemistry Process: Provides a solution for low-energy, high-efficiency green chemistry processes, aligning with sustainable development needs in modern chemical industries.
| Physical Properties and Chemical Composition | |
| Property Name | Value |
| Appearance | Brown cylindrical |
| Size (mm) | 6 × (4~5) |
| Radial Strength (N·cm⁻¹) | ≥180 |
| Bulk Density (kg·L⁻¹) | ≥1.2 |
| w(CuO) (%) | 45~49 |
| w(Cr₂O₃) (%) | 45~48 |
| w(Additives) (%) | Trace |
| w(CrO₃) (%) | ≤1.0 |
| w(C) (%) | 2~3 |
| w(H₂O) (%) | 1~2 |
| Process Conditions | Value |
| Pressure (MPa) | Atmospheric |
| Temperature (℃) | 120–200 |
| Space Velocity (hr⁻¹) | 0.25–0.5 |
| H₂/CH₂O Molar Ratio | 4.5 |
| Indicator Name | Value |
| 2-Methylfuran Selectivity | Greater than 90.0% |
