LIBRA
MOLECULAR SIEVE
Optimized & Industry-ready Solutions
Molecular sieve
Libra Molecular Sieve Adsorbents are crystalline
aluminosilicates with frameworks, as well as water in its as-synthesized form. This crystal water can be removed by thermal treatment without damaging the crystalline structure to create the conditions for a reversible process such as water adsorption /desorption.
Libra is combined with the experience and expertise of our chemists and engineers to produce Molecular Sieve Adsorbents. Our products and services meet and exceed our customers’ expectations and requirements due to our complete commitment to quality. Trust Libra Molecular Sieve Adsorbents to make a difference because we make adsorbents differently.
3A molecular sieve
For Ethanol Dehydration
Ethanol dehydration typically occurs in a PSA unit. Water is adsorbed into the molecular sieve from the ethanol-water feed.
4A-DG molecular sieve
For natural gas Dehydration
Cryogenic natural gas processing plants, liquefied natural gas plants (LNG) depend upon molecular sieves to remove water and other contaminants to very low levels.
3A-EPG molecular sieve
For Cracking gas Dehydration
The products combine high water adsorption capacity with minimum ethylene co-adsorption and excellent mechanical characteristics.
4A molecular sieve
For compressed air Dehydration
The product for Desiccant Air Dryer is a low-dust, smooth, spherical product with high compressive strength and low wear rate. The air dew point could be reached to -70 ° C after treated.
5A molecular sieve For Hydrogen Purification
The main application is the
recovery and purifcation of hydrogen from raw
gases. The hydrogen product meets every purity
requirement up to 99.9 mol% and is achieved at highest recovery rates.
LiX molecular sieve
For Oxygen Production
Lithium-exchanged molecular sieve provides twice the nitrogen capacity of earlier adsorbents and permits the design of the smallest, most energy efficient units.
5A molecular sieve
For Oxygen Production
The adsorption process, widely called PSA, can be used to generate oxygen and is very attractive and more competitive than the cryogenic process for small oxygen production.
13X molecular sieve
For prepurification for Cryogenic Air Separation
The water and CO2 must be removed prior the air entering the distillation portion, because low temperatures would cause them to freeze and deposit on the surfaces of equipment.
