WOBO Scientific Research New Materials One-Stop Service Platform
Catalytic reforming catalyst support is an advanced material designed to enhance the stability, dispersion, and performance of active catalytic components in hydrocarbon reforming processes. Engineered with optimized porosity, thermal resistance, and controlled surface properties, it ensures superior support for noble-metal catalysts, promoting efficient molecular conversion and prolonged operational lifespan. This material is widely used in petrochemical refining, gasoline upgrading, and aromatic hydrocarbon synthesis, delivering reliable performance for continuous catalytic reforming applications.
Product Overview
This catalytic reforming catalyst support is produced using a newly developed spherical support molding technology. Made from high-purity pseudo-boehmite as the raw material, it results in a low-wear, high-purity spherical alumina product. This technology addresses traditional catalyst support issues, such as low yield and environmental pollution, offering high efficiency and environmental benefits.
Key Features
- Independently Developed:Utilizing self-developed free-drop molding technology, which controls particle size distribution and sphericity, achieving a high product yield of over 99%.
- High Purity and Low Wear:The spherical alumina has excellent purity and low wear properties, making it ideal for demanding catalytic reactions.
- High Strength and Stability:The product has high compressive strength and good hydrothermal stability, ensuring the catalyst operates stably over time.
Applications
- Catalytic Reforming Reaction:Widely used in the petrochemical industry for catalytic reforming reactions, serving as the catalyst support to deliver excellent reaction performance.
- Other Catalytic Applications:Suitable for other catalytic reactions requiring high-performance alumina supports, improving catalyst performance and longevity.
| Property | Unit | Specification | |
| Appearance | mm | White spherical | |
| Diameter | % | Φ1.6~1.8 | |
| Wear Rate | ≤0.05 | ||
| Compressive Strength | Compressive Crushing Force | N/piece | ≥50 |
| Compressive Crushing Force Variation Coefficient | ≤0.2 | ||
| Tapped Density | g/mL | 0.62~0.66 | |
Submit Your RequirementsWe will contact you within 24 hours.
