High-Performance Molecular Sieve 13X APG for Efficient CO2 and H2O Removal
Specialized adsorbent for critical air separation processes, ensuring pure oxygen and nitrogen.
Get a Quote & SampleProduct Core Value
APG Molecular Sieve 13X
The 13X APG molecular sieve is engineered as a high-performance adsorbent specifically designed for the simultaneous removal of carbon dioxide (CO2) and water (H2O). Its unique zeolite structure with a nominal pore diameter of 10 Angstroms makes it exceptionally effective in co-adsorbing these molecules, preventing critical issues like freezing in cryogenic distillation processes within air separation units.
- Achieve superior air purification with APG molecular sieve 13X for critical CO2 and H2O removal applications.
- Ensure the integrity of your cryogenic air separation processes by utilizing molecular sieves for H2O and CO2 removal.
- Experience enhanced efficiency with a zeolite 13X APG adsorbent that offers rapid adsorption speeds.
- Benefit from a long-lasting and reliable solution for purification of oxygen and nitrogen in demanding industrial environments.
Key Advantages
Superior Contaminant Removal
Effectively removes both CO2 and H2O, preventing freezing and ensuring high purity output essential for applications like oxygen and nitrogen generation.
Enhanced Process Efficiency
The rapid adsorption speed of APG molecular sieve 13X contributes to optimized cycle times and overall process throughput in air separation units.
Robust and Reusable
Designed for durability and can be regenerated through thermal swing or pressure swing processes, offering a cost-effective and sustainable solution.
Key Applications
Air Separation Units
Crucial for the purification of feed gas, removing H2O and CO2 to prevent equipment damage and ensure high purity oxygen and nitrogen.
Industrial Gas Drying
Provides deep drying for various industrial gases, ensuring they meet stringent purity requirements for downstream processes.
Natural Gas Processing
Used in the dehydration and desulfurization of natural gas, as well as removal of hydrocarbons and CO2.
Catalyst Carrier
Its porous structure makes it suitable as a support for catalysts in various chemical reactions.