506HL Palladium Catalyst for deoxygenation Description
506HL Palladium Catalyst for deoxygenation is a deoxidation catalyst made of precious metal supported on activated alumina, which is mainly used for deoxygenation in hydrogen, and also for hydrogenation and deoxygenation of inert gases such as nitrogen, carbon monoxide, carbon dioxide, and argon.
506HL Palladium Catalyst for deoxygenation Specifications
|
Working Temperature
|
Room temperature (heating is preferred, ≤450℃)
|
|
Working Pressure
|
≤20Mpa
|
|
Appearance
|
Spherical
|
|
Airspeed
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≤5000hr-1
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|
Particle Size
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Φ2-5mm
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|
Bulk Specific Gravity
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0.7±0.1kg/L
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|
Oxygen content
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≤4%
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Residual oxygen after purification
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≤1ppm
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Mechanical strength
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≥80N
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Service Life
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≥3 years
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Note:
If the oxygen content of the gas to be purified is ≤ 0.4% and the self-heating does not reach around 100°C. It is necessary to heat the deoxygenator to ensure that the working temperature of catalyst is around 100°C. Only then can the catalyst achieve long-term stable operation for deoxygenation.
506HL Palladium Catalyst for deoxygenation Applications
It is mainly used for deoxygenation in hydrogen, and also for hydrogenation and deoxygenation of inert gases such as nitrogen, carbon monoxide, carbon dioxide, and argon.
The 506HL Palladium Catalyst is ideal for a wide range of deoxygenation applications, including but not limited to:
Chemical Synthesis: Accelerate the production of high-purity chemicals and intermediates with improved efficiency and selectivity.
Polymer Processing: Facilitate the removal of oxygen from polymers to enhance their stability and properties.
Materials Science: Enable the creation of oxygen-sensitive materials and compounds.
Catalysis Research: Serve as a critical tool for fundamental research in deoxygenation mechanisms and catalysis studies.
506HL Palladium Catalyst for deoxygenation Features
1. Unmatched Deoxygenation Efficiency: The 506HL Palladium Catalyst is renowned for its extraordinary deoxygenation efficiency, ensuring swift reactions and exceptional yields.
2. Versatile Applicability: This catalyst is adaptable to a wide variety of deoxygenation reactions, including the removal of oxygen from organic compounds, polymers, and more, making it an invaluable asset for diverse chemical processes.
3. Precise Control: Achieve exacting control over your deoxygenation processes with the high selectivity of our catalyst, minimizing the formation of unwanted byproducts.
4. Robust Stability: With exceptional stability and resistance to deactivation, this catalyst ensures prolonged operational efficiency, reducing downtime and costs.
5. Consistency Assured: We guarantee batch-to-batch uniformity, ensuring reliable outcomes and aiding scalability in industrial applications.
6. User-Friendly: The 506HL Palladium Catalyst is designed for ease of use and can be seamlessly integrated into various reaction systems.
506HL Palladium Catalyst for deoxygenation Packaging
Our 506HL Palladium Catalyst for deoxygenation is carefully handled during storage and transportation to preserve the quality of our product in its original condition.
Specification
|
Working Temperature
|
Room temperature (heating is preferred, ≤450℃)
|
|
Working Pressure
|
≤20Mpa
|
|
Appearance
|
Spherical
|
|
Airspeed
|
≤5000hr-1
|
|
Particle Size
|
Φ2-5mm
|
|
Bulk Specific Gravity
|
0.7±0.1kg/L
|
|
Oxygen content
|
≤4%
|
|
Residual oxygen after purification
|
≤1ppm
|
|
Mechanical strength
|
≥80N
|
|
Service Life
|
≥3 years
|
Note:
If the oxygen content of the gas to be purified is ≤ 0.4% and the self-heating does not reach around 100°C. It is necessary to heat the deoxygenator to ensure that the working temperature of catalyst is around 100°C. Only then can the catalyst achieve long-term stable operation for deoxygenation.
