Ammonia Synthesis Catalysts with Strong Thermal Stability for Ammonia Plant
Ammonia Synthesis Catalysts with Strong Thermal Stability for Ammonia Plant
Ammonia Synthesis Catalysts with Strong Thermal Stability for Ammonia Plant
Ammonia Synthesis Catalysts with Strong Thermal Stability for Ammonia Plant
Ammonia Synthesis Catalysts with Strong Thermal Stability for Ammonia Plant
Model
SYAMCAT A217/SYAMCAT A217R

Item specifics

Active component
Fe-Co
Color
Black
Porosity
45%

Review

Description

Description of Ammonia Synthesis Catalyst
SYAMCAT Ammonia Synthesis Catalyst
Ammonia Synthesis Catalysts with Strong Thermal Stability for Ammonia Plant

Ammonia synthesis catalyst is a high-performance ammonia synthesis catalyst produced by SYAMCAT through optimizing raw material selection, optimizing process conditions, and improving product quality. It’s divided into two different states: oxidation state and reduction state to serve our excellent customers.

Application of Ammonia Synthesis Catalyst
Ammonia and Chemical Fertilizer Plants: Used for the reaction of nitrogen and hydrogen to synthesize ammonia under wide temperature conditions.
Specification of Ammonia Synthesis Catalyst
Physico-chemical properties
Item
SYAMCAT A217
SYAMCAT A217R
Shape
Magnetic Solid Particle without fixed shape
Magnetic Solid Particle without fixed shape
Size/mm

1.53.0 2.23.33.34.74.76.76.79.49.413.0 etc.

TFe
65-70
84-94
Bulk density/(kg.L-1)
2.8-3.2
2.4-2.6
Benefits of Ammonia Synthesis Catalyst

Enhanced Active Centers: Our catalyst, powered by Fe-Co active components, offers an abundance of active centers. This unique feature optimizes the pore structure, promoting efficient transfer of reactants and products.  Enhanced reaction rates and greater efficiency.

 

Quick Start Low-Temperature Activity: The catalyst incorporates a precise amount of Co, delivering impressive low-temperature activity. Experience faster reaction initiation and shorter startup times, allowing you to accelerate production.

 

Extended Catalyst Service Life: By introducing electron-donating additives, our catalyst retains potassium ions on its surface for longer durations. This not only bolsters thermal stability but also extends the catalyst's service life, reducing replacement frequency and maintenance costs.

 

Boosted Toxicity Resistance: Electron-donating additives fortify the catalyst, enhancing its resistance to toxicity. This added resilience ensures consistent performance even in challenging environments.

 

Optimal Iron Ratio: The catalyst maintains an ideal iron ratio, simplifying the reduction process and boosting catalytic activity. A more straightforward operation results in increased production efficiency.

 

Wide Operating Temperature Range: Benefit from excellent low-temperature activity and robust thermal stability. Our catalyst operates effectively across a broad temperature range, providing adaptability to various conditions.

 

Versatile Application: Our catalysts find their place in low, medium, and high-pressure ammonia synthesis operations. They are equally suitable for high airspeed processes, making them an adaptable choice for a wide range of applications.