CO2 Precious Metal Catalyst

Keywords：CO₂ catalyst, precious metal catalyst, carbon dioxide conversion, CO₂ reduction, platinum catalyst, palladium catalyst, rhodium catalyst, CO₂ utilization
Category：CO2-related Materials

The CO₂ Precious Metal Catalyst is an advanced catalytic material engineered to accelerate chemical reactions involving carbon dioxide conversion and utilization. Developed with high‑performance precious metals such as platinum, palladium, ruthenium, or gold, it provides superior activity, selectivity, and stability under demanding industrial conditions. This catalyst enables efficient CO₂ reduction, hydrogenation, reforming, and synthesis processes, supporting applications in sustainable energy, chemical production, and environmental protection. Compact, durable, and highly effective, the CO₂ Precious Metal Catalyst plays a critical role in carbon capture, utilization, and green technology development.

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Product Details
Product Specifications

Product Overview

The CO₂ precious metal catalyst is a highly efficient catalyst designed to remove and purify a variety of hydrocarbon compounds from carbon dioxide, including alkanes, alkenes, alkynes, alcohols, aldehydes, ethers, and esters. Leveraging the unique catalytic properties of precious metals, it enables efficient conversion and purification of complex gas mixtures, significantly improving the efficiency and reliability of gas treatment and industrial processes.

Working Principle

The catalyst relies on highly active sites on the precious metal surface to accelerate the oxidation or decomposition of hydrocarbons in the CO₂ medium. Optimized surface structures enhance reactant adsorption and activation efficiency, while increasing resistance to common catalyst poisons. This ensures long-term stable operation even under high-temperature or complex gas conditions.

Key Features

High Activity:Achieves efficient conversion under relatively low temperatures and mild reaction conditions.
Strong Poison Resistance:Exhibits excellent tolerance to common catalyst poisons, ensuring long-term stable performance.
Excellent Thermal Stability:Maintains catalytic performance under high-temperature conditions, suitable for a wide range of applications.
High Removal Efficiency:Effectively eliminates multiple hydrocarbon contaminants from carbon dioxide, improving purification outcomes.
Long Service Life:Longer operational lifespan compared with conventional catalysts, reducing replacement frequency and maintenance costs.

Applications

Gas Purification:Ideal for industrial gas treatment, especially for removing hydrocarbon contaminants from carbon dioxide streams.
Chemical Production:Used in purification of chemical raw materials and intermediates, ensuring the quality and purity of final products.
Environmental Engineering:Supports CO₂ reduction and environmental control, promoting efficient greenhouse gas management and optimized emissions.

Metal Types	Platinum, Palladium, Platinum-Palladium Alloy
Carrier Type	Aluminum Oxide
Particle Size	3-4 mm or 2-3 mm (spherical)
Industrial Operating Conditions	Temperature ≤ 600°C; Pressure < 5.0 MPa;
	Space Velocity 1000~5000 h⁻¹; Total Hydrocarbons at Outlet ≤ 10 ppm
Lifespan	Over 4 years