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Efficient trace hydrogen removal catalyst is a high-performance catalytic material designed for the selective removal of trace hydrogen from gas streams, ensuring precise purification with superior efficiency. Engineered with optimized metal-supported formulations, it enhances reaction kinetics, improves impurity elimination, and ensures prolonged operational stability for industrial applications. This catalyst plays a critical role in gas refining, electronic-grade gas purification, and petrochemical processing, delivering reliable performance for continuous catalytic hydrogen removal.
Product Overview
The Efficient Trace Hydrogen Removal Catalyst is designed for catalyzing the reaction of trace hydrogen with oxygen to generate water under ambient temperature conditions, enabling precise removal of trace hydrogen. The catalyst exhibits excellent catalytic activity at low temperatures, effectively removing trace hydrogen from gases or liquids, thereby ensuring product purity and precise process control. It is widely used in industrial processes that require strict hydrogen content control, especially in catalytic refining and gas purification, where it shows outstanding performance.
Key Features
- Ambient Temperature Efficiency: Efficiently catalyzes the reaction of trace hydrogen with oxygen at ambient temperature to generate water, rapidly removing trace hydrogen.
- Precise Hydrogen Removal: Allows precise control over hydrogen removal, ensuring that hydrogen content in the process meets required standards.
- Low-Temperature Start: Can initiate reactions at low temperatures, making it suitable for low-temperature operating conditions.
- Strong Stability: Exhibits good catalytic activity and stability over long-term operation, reducing maintenance and replacement costs.
- High Selectivity: Offers good selectivity, precisely removing trace hydrogen without affecting other components.
Applications
- Gas Purification: Widely used in gas purification processes to accurately remove trace hydrogen from gases.
- Catalytic Refining: Used in catalytic refining processes to remove trace hydrogen, ensuring product quality.
- Chemical Processes: Suitable for various chemical production processes that require strict control of hydrogen content.
- Precision Chemical Reactions: Used in precision chemical reactions to control hydrogen concentration, ensuring reaction stability and safety.
| Item | Parameter Index | Actual Value | Unit |
| 1. Appearance | Flake-like | ||
| 2. Color | Black | ||
| 3. Particle Diameter | 3.1±0.2 | mm | |
| 4. Particle Length | 3.25±0.35 | mm | |
| 5. Specific Surface Area | >100 | m²/g | |
| 6. Bulk Density | 1.1±0.1 | Kg/l | |
| 7. Particle Strength | >200 | N/cm | |
| 8. Pore Volume | >0.3 | ml/g | |
| 9. Abrasion Rate | <1 | % | |
| 10. Loss on Ignition | <3 | % | |
| 11. Crushing Strength Variation Coefficient | <5 | % | |
| 12. Moisture Content | <3 | % | |
| 13. Palladium Content | 1.0±0.1 | % | |
| 14. Alumina Content | Remainder | % | |
| 15. SiO₂ Content | <0.03 | % | |
| 16. Na₂O Content | <0.008 | % | |
| 17. Fe₂O₃ Content | <0.03 | % | |
| 18. Others |
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