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Molecular Sieves for Deep Dehydration of Natural Gas
The pore size of 3A molecular sieves is 3Å (0.3 nm), allowing only smaller molecules such as H₂O (2.6Å) to enter the pore channels, while hydrocarbon molecules like methane (CH₄, 3.8Å) and ethane (3.8Å) are effectively blocked. This enables selective adsorption. Molecular sieves are widely used f...Read more -
JOOZEO Sponsors and Participates in the 3rd Shandong Low-Carbon and Energy Efficiency Industry Development Summit
On June 27, 2025, the 3rd Low-Carbon and Energy Efficiency Industry Development Summit was successfully held in Jinan, Shandong. As a leading manufacturer of high-end adsorbents, JOOZEO actively participated in and sponsored the summit. With the theme of “Enhancing Efficiency and Driving Innovati...Read more -
Molecular Sieve Applications in Desulfurization and Industrial Flue Gas Treatment
JOOZEO’s molecular sieves are highly favored in desulfurization applications due to their unique physical and chemical properties. JOOZEO’s specialized desulfurization molecular sieves offer high dynamic adsorption capacity and uniform pore size distribution (e.g., 3A, 4A, 5A, 13X). By adjusting ...Read more -
JOOZEO Concludes a Successful Exhibition at the 26th China International Exhibition on Gases Technology, Equipment and Application (IG China 2025)
From June 18 to 20, 2025, the 26th China International Exhibition on Gases Technology, Equipment and Application (IG China 2025) was successfully held in Hangzhou. As a premier annual event in the global industrial gases industry, this year’s exhibition marked a significant leap in both scale and...Read more -
Applications of Molecular Sieves in Hydrogen Production, Purification, and Storage
Molecular sieves are indispensable in the hydrogen industry, offering crucial technical support through their efficient adsorption and catalytic properties across production, purification, and storage processes. Core Advantages in Hydrogen Applications: ● High Selectivity: By adjusting pore size...Read more -
Application of Activated Alumina and Molecular Sieves in Cryogenic Air Separation
The purification stage in cryogenic air separation is critical. Its core task is to remove low-temperature condensable components (such as H₂O, CO₂, and hydrocarbons) from air using a combination of molecular sieves and activated alumina, ensuring the safe and stable operation of subsequent disti...Read more
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