NINGBO INNO PHARMCHEM CO.,LTD. offers advanced chemical sorbents designed for high-performance purification, with 13X Molecular Sieves leading the way. These synthetic zeolites are recognized globally for their exceptional ability to selectively adsorb molecules based on size and polarity, making them invaluable in a wide array of industrial applications.

The defining characteristic of 13X molecular sieves is their pore aperture of 10 Angstroms, the largest among common zeolite types. This generous pore size allows them to adsorb a broad spectrum of molecules, including water, carbon dioxide, alcohols, aromatics, and larger hydrocarbons. This makes them exceptionally versatile as a chemical sorbent for gas drying, effectively removing moisture from gases like compressed air, natural gas, and refrigerants, thereby preventing operational issues and maintaining product integrity. Their utility in the molecular sieve for nitrogen adsorption in oxygen production is another key application.

Beyond drying, 13X molecular sieves are critical in air separation processes, particularly for generating oxygen through PSA technology. By selectively adsorbing nitrogen, they concentrate oxygen from ambient air, a vital process for both medical and industrial applications. Their efficiency in purifying oxygen making gases ensures the high purity required for these sensitive uses. Furthermore, their capacity to remove contaminants makes them suitable for purifying various chemical streams and solvents.

For industries seeking reliable and efficient purification solutions, the choice of 13X molecular sieve is clear. NINGBO INNO PHARMCHEM CO.,LTD. provides these premium adsorbents, ensuring consistent quality and performance. Whether your need is for rigorous gas drying, effective air separation, or specialized chemical purification, our 13X molecular sieves offer a robust and dependable solution. We encourage those looking to purchase 13X molecular sieve for their purification needs to consider the superior capabilities of our product.