Secondary Steam Reforming Catalyst with Structural Stability for Reformer
Secondary Steam Reforming Catalyst with Structural Stability for Reformer
Secondary Steam Reforming Catalyst with Structural Stability for Reformer
Secondary Steam Reforming Catalyst with Structural Stability for Reformer
Model
SYAMCAT Z217/SYAMCAT Z218

Item specifics

Active Components
Nickel Oxide
Catalyst Carrier
Gamma Alumina
Color
Grey multiple
Primary Refroming Catalyst产品落地页
≥300

Review

Description

Description of Secondary Steam Reforming Catalyst
SYAMCAT Secondary Steam Reforming Catalyst
Secondary Steam Reforming Catalyst with Structural Stability for Reformer 
Enhance your reformer's performance with SYAMCAT's Secondary Steam Reforming Catalyst, formulated with nickel as the active component. Engineered for high-temperature secondary or autothermal furnace steam-reforming processes, this catalyst offers exceptional activity, heat resistance, and structural stability.


Application of Secondary Steam Reforming Catalyst

Synthesis Gas Progress: Suitable for producing hydrogen, ammonia synthesis gas, methanol synthesis gas, metallurgical reduction gas etc., by auto-thermal or secondary reforming process with oil field gas, natural gas, coke oven gas feedstock.
Reformer Tubes: SYAMCAT Z217 is a heat- resistant catalyst, loaded in the upper section of reformer tubes, while SYAMCAT Z218 is the bulk catalyst loaded in the lower section of reformer tubes.

Operating Conditions of Secondary Steam Reforming Catalyst
Item
SYAMCAT Z217
SYAMCAT Z218
Temperature/℃
950-1300
800-1200
Pressure/MPa
0.1-5.0
0.1-5.0
Carbon space velocity/h-1
3000-10000

3000-10000

Specification of Secondary Steam Reforming Catalyst
Physico-chemical properties
Item
SYAMCAT Z217/ SYAMCAT Z218
Shape
Hole cylinder 
Size/mm
Φ16*φ4*8~10
Active component
Ni
Bulk density/(kg.L-1)
0.90-1.10
Benefits of Secondary Steam Reforming Catalyst

Versatility in Reforming Conditions: These catalysts excel in diverse reforming environments, thriving in both oxygen-rich and pure oxygen conditions. Their adaptability ensures consistent performance, regardless of the oxygen composition, enhancing your operational flexibility.

Unmatched Activity, Durability, and Stability: Experience exceptional catalyst activity, coupled with superior heat resistance and structural stability. These catalysts are designed to endure rigorous conditions, ensuring reliable and consistent performance over extended periods.

Prolonged Service Life, Reduced Downtime: Enjoy a prolonged catalyst service life, minimizing replacement frequency and associated downtime. This longevity translates into cost savings, allowing your operations to run smoothly without interruptions.

Enhanced Efficiency through Size: Our catalysts boast large dimensions, a strategic feature that reduces pressure drop during operation. This reduction in pressure drop optimizes gas flow, enhancing efficiency and ensuring your processes run seamlessly.