Steam Reforming Catalyst

element：Nickel (Ni), Aluminum Oxide (Al₂O₃)
purity：Adjusted according to process requirements
shape：Granular or cylindrical
specification：Customized according to customer requirements
packaging：Inner plastic bag lining within a packaging bag, with a net weight of 30 kg per bag

Steam reforming catalyst is a high-performance catalytic material designed for the efficient conversion of hydrocarbons into hydrogen-rich syngas through optimized steam reforming processes. Engineered with advanced metal-supported formulations, it enhances thermal stability, improves reaction kinetics, and ensures prolonged operational lifespan for industrial applications. This catalyst is widely used in hydrogen production, ammonia synthesis, and large-scale petrochemical refining, delivering reliable performance for continuous catalytic reforming.

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产品描述
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Product Overview

This steam reforming catalyst features nickel as the primary active component and aluminum oxide as the support material, specifically designed for use in the second-stage reforming reactions. The catalyst demonstrates excellent catalytic performance and stability during the steam reforming process, effectively increasing the reaction rate and product conversion efficiency. It has been extensively validated in industrial applications and is considered one of the ideal catalysts for steam reforming processes.

Key Features

High Activity: The nickel active component effectively promotes the steam reforming reaction, improving conversion efficiency.
Excellent Stability: The catalyst exhibits outstanding stability over extended periods of use, maintaining high catalytic efficiency.
High Strength: The catalyst has a high mechanical strength, making it resistant to high pressure and high temperature conditions, minimizing catalyst attrition and loss.
Tailored for Two-Stage Reforming: Specifically designed for second-stage reforming, this catalyst enhances overall catalytic performance and optimizes the reaction process.

Applications

Steam Reforming Process: Widely used in the steam reforming reactions in natural gas, petrochemical, and other industries, especially suitable for two-stage reforming reactions.
Hydrogen Production: Used as a catalyst for hydrogen production and synthesis gas generation, providing high conversion rates and excellent catalytic effects.
Synthesis Gas Production: Suitable for synthesis gas (CO and H₂) production, offering efficient catalytic solutions for chemical synthesis and energy industries.

Property	Value
Geometric Dimensions (Outer Diameter × Height × Inner Diameter)	19 × 19 × 9 (mm)
Bulk Density	0.9 ~ 1.0 Kg/L
NiO Content	≥ 14.00%
Loss on Ignition (LOI)	≤ 20%
Low-Strength Particle Percentage (Particles Below 180N)	≤ 5.0%
Heat Resistance Indicator	No adhesion or fracture after calcining at 1300℃ for 2 hours
Heat Resistance Performance	Stable operation at 1200℃ for long periods, no melting, shrinking, or deformation at 1400℃, with stable structure and high strength during high-temperature operation