High-Capacity 13X Molecular Sieve for Efficient Cryogenic Air Separation
Unlock peak performance in air separation with our advanced 13X molecular sieve, ensuring purity and operational efficiency.
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13X Molecular Sieve
This advanced synthetic zeolite, known as Zeolite 13X, possesses a precisely uniform pore structure with a 9Å (0.9nm) diameter. This allows for the selective adsorption of molecules smaller than this aperture, making it highly effective in removing critical impurities like carbon dioxide (CO2) and water vapor from gas streams. Its high adsorption capacity for these contaminants, particularly CO2, coupled with a low regeneration temperature and extended service life, significantly enhances the efficiency and reliability of cryogenic air separation processes by preventing ice formation in heat exchangers.
- Benefit from the high adsorption capacity for CO2 and water removal, crucial for preventing freezing in cryogenic processes.
- Experience the advantage of a low regeneration temperature, leading to reduced energy consumption and operational costs.
- Utilize its long service life, ensuring consistent performance and minimizing replacement frequency for cost-effectiveness.
- Leverage the uniform pore size of 9Å, enabling precise selective adsorption of target molecules in various gas purification applications.
Advantages of Using 13X Molecular Sieve
Enhanced Purity in Air Separation
The 13X molecular sieve is essential for the purification of feed gas in air separation units, ensuring high-purity oxygen and nitrogen production by effectively removing H2O and CO2.
Efficient Gas Drying and Desulfurization
Its strong adsorption capabilities make it ideal for the drying and desulfurization of liquefied natural gas (LNG), petroleum gas, and liquid hydrocarbons, improving fuel quality.
Versatile Industrial Applications
Beyond air separation, this molecular sieve serves as a catalyst carrier and is used in the drying and purification of general industrial gases, showcasing its broad applicability.
Key Applications
Cryogenic Air Separation
Crucial for removing moisture and carbon dioxide to prevent freezing in air separation units, thereby ensuring uninterrupted operation and high gas purity.
General Gas Purification
Effectively purifies various industrial gases by selectively adsorbing impurities, contributing to cleaner downstream processes and products.
Drying of Liquefied Gases
Utilized in the drying and desulfurization of LNG, LPG, and liquid hydrocarbons, enhancing their quality and safety for various applications.
Catalyst Carrier
Its stable structure and large pore size make it a suitable carrier for catalysts in various chemical reactions, improving catalytic efficiency.