Description
Specifications Table
Product Name – Molecular Sieves 13X 1/16″ Pellets (UOP)
Form – Pellets
Grade – Laboratory
Application – Adsorption of gases and moisture
Pack Size – 250 gm, 1kg, 5 kg
Product Overview
Molecular Sieves 13X 1/16″ Pellets from eqipped are high-performance adsorbents designed for efficient removal of moisture, gases, and impurities in laboratory applications. These pellets are manufactured to strict quality standards, ensuring consistent performance and reliability. The 13X type is particularly effective for its high adsorption capacity, making it ideal for use in gas purification, dehydration, and air drying processes. The uniform 1/16″ pellet size ensures optimal flow and handling, while the premium-grade material guarantees long-lasting durability. Trusted by researchers and educators, these molecular sieves are a reliable choice for precise lab work. The pellets are chemically stable and resistant to degradation, ensuring they maintain their effectiveness over multiple cycles. Whether for academic research or industrial applications, eqipped’s Molecular Sieves 13X 1/16″ Pellets deliver superior adsorption performance and value.
FAQs
1. What are the primary applications of Molecular Sieves 13X 1/16″ Pellets?
These pellets are used for gas purification, moisture removal, and air drying in laboratory settings.
2. How do Molecular Sieves 13X differ from other types of molecular sieves?
Molecular Sieves 13X have a larger pore size, making them more effective for adsorbing larger molecules and gases.
3. Are these pellets reusable after regeneration?
Yes, they can be regenerated by heating to remove adsorbed substances and reused multiple times.
4. What is the ideal storage condition for these molecular sieves?
Store in a dry, airtight container away from moisture and contaminants to maintain their adsorption efficiency.
5. Can these pellets be used in industrial applications?
While primarily designed for lab use, they can also be used in small-scale industrial processes requiring moisture and gas adsorption.
