new material
Synthesis of isopropylamine catalyst is a high-performance catalytic material designed for the selective amination of isopropanol into isopropylamine with superior efficiency and stability. Engineered with optimized metal-supported formulations, it enhances reaction kinetics, improves conversion selectivity, and ensures prolonged operational lifespan for industrial applications. This catalyst is widely used in fine chemical synthesis, pharmaceutical intermediate production, and agricultural chemical manufacturing, delivering reliable performance for continuous catalytic amination.
Product Overview:
The Isopropylamine Synthesis Catalyst is a high-efficiency catalyst used in the synthesis of isopropylamine, widely applied in processes using acetone, liquid ammonia, and hydrogen as raw materials. Produced by Liaoning Haitai Technology Development Co., Ltd., this catalyst offers excellent stability, high conversion rate, and good selectivity. It is designed to have low catalyst consumption, with 0.4-0.5 kg of catalyst consumed per ton of isopropylamine produced. The catalyst ensures over 99% conversion rate and more than 98% selectivity.
Key Features:
- High Conversion Rate:The catalyst achieves a conversion rate of over 99%, ensuring efficient raw material conversion.
- High Selectivity:With selectivity exceeding 98%, the catalyst minimizes side reactions, improving the purity of the product.
- Low Consumption:The catalyst consumption per ton of isopropylamine is low (0.4-0.5 kg), reducing production costs.
- Multiple Shapes Available:The catalyst can be customized in various forms, such as black spherical, cylindrical strips, or cloverleaf strips, to meet specific process needs.
Applications:
- Organic Synthesis:Used for the catalytic reaction in the synthesis of isopropylamine from acetone, liquid ammonia, and hydrogen.
- Chemical Production:Widely used in chemical synthesis, particularly for the industrial production of isopropylamine.
- Pharmaceutical Industry:Employed as an important intermediate for the synthesis of pharmaceuticals.
| Property | Value |
| Appearance | Black spherical |
| Size (mm) | ∮3-4 |
| Active Component | Nickel + Additives |
| Radial Crush Strength (N/pellet) | ≥80 |
| Bulk Density (kg/L) | 0.78-0.88 |
| Operating Conditions | Value |
| Temperature (℃) | 150 |
| Pressure (MPa) | 1 |
| Acetone Space Velocity (hr⁻¹) | 0.5 |
| Reactant Mole Ratio (Acetone:Ammonia:Hydrogen) | 1:03:03 |
| Conversion Rate | ≥99% |
| Selectivity | ≥98% |
