For procurement specialists and R&D scientists in the chemical and industrial sectors, understanding the precise technical specifications of a Carbon Monoxide (CO) removal catalyst is paramount. Selecting the right catalyst ensures optimal performance, safety, and cost-effectiveness in applications ranging from air purification to process gas treatment. As a leading manufacturer, we provide detailed insights into the specifications that matter most when you're looking to 'buy carbon monoxide catalyst manufacturer'.

Key Technical Specifications for CO Removal Catalysts

When evaluating CO catalysts, several technical parameters are critical:

  • Active Ingredient Content: This refers to the percentage of the primary material responsible for catalyzing the CO oxidation. Higher active content typically means greater catalytic efficiency. Our catalysts offer high levels, such as 85% active content for general use and up to 99% in specialized powder forms, ensuring potent CO conversion.
  • Specific Surface Area (SSA): Measured in m²/g, SSA indicates the total surface available for chemical reactions. A higher SSA generally leads to increased contact between the catalyst and CO molecules, boosting reaction rates. Our catalysts typically feature an SSA of 200-240 m²/g, providing ample active sites.
  • Catalyst Strength: This refers to the physical robustness of the catalyst particles, essential for preventing attrition and dust formation during handling, loading, and operation, especially in fixed-bed reactors. Our catalysts are designed with high strength (e.g., >40 N/cm or >60 N/cm) to withstand demanding industrial conditions.
  • Bulk Density: This metric (g/ml) influences the volume of catalyst required for a given weight and affects pressure drop in packed beds. Our catalysts often have a lower bulk density, meaning less material by weight is needed for equivalent performance, offering potential cost savings.
  • Operating Temperature Range: Our primary advantage is efficient CO oxidation at ambient temperatures (0-50°C), minimizing energy input and making them suitable for sensitive applications.
  • CO Removal Efficiency: This is the ultimate measure of performance, indicating how effectively the catalyst reduces CO concentrations. Our catalysts can achieve efficiencies up to 99.99% under optimal conditions.

Understanding Physical Forms for Optimal Application

Beyond chemical composition, the physical form of the catalyst is crucial for effective deployment:

  • Pellet/Columnar: Ideal for fixed-bed reactors, offering good gas flow and low pressure drop. Various diameters are available.
  • Granule: Suitable for both fixed and fluid-bed reactors, offering flexibility in particle size.
  • Powder: Provides the highest surface area and reactivity, often used in specialized filters or coatings. Our powder forms offer the highest active ingredient concentration.
  • Spherality Ball: Used in specific catalytic converter designs where spherical particles offer advantages in gas distribution or bed stability.

Sourcing from a Reliable Manufacturer

When you search for a 'high purity CO removal catalyst supplier' or compare 'ambient temperature CO oxidation catalyst price', consider the depth of technical expertise and manufacturing capability. We, as a leading manufacturer in China, ensure that all our products meet stringent quality controls and offer comprehensive technical support. This includes assisting you in selecting the correct specifications and dosage for your unique industrial needs. Contact us today to discuss your requirements and to obtain samples for performance validation.