Cryogenic Air Separation JLPM


Cryogenic Air Separation JLPM

JLPM molecular sieve is a synthetic crystalline aluminosilicate with well developed three-dimensional pore structure and strong polarity. It is widely used Cryogenic Air Separation for industry gases dehydration , water and carbon dioxide removal in PPU of ASU, desulfuration and decarburization of natural gas and hydrocarbons lowering operating costs and energy consumption

zeolite for cryogenic air separation

Technical Specifications

Property Unit Bead Note
Diameter mm 1.6-2.5 1.6-2.5 1.6-2.5
Static CO2 Adsorption ml/g ≥8.0 ≥6.8 ≥6.0 2.5mmHg, 25℃
Bulk Density g/ml 0.63-0.69 0.63-0.69 0.64-0.68 Tapped
Package Moisture %wt ≤1.5 ≤1.5 ≤1.5 575℃, 1hr
Crush Strength N ≥25 ≥30 ≥30 Avg. 25 beads

Major Applications

Cryogenic Air Separation

Cryogenic air separation plays a key role in producing oxygen, nitrogen, and argon by separating contaminants such as carbon dioxide and water from a gas stream.

Our rapid absorption solution can satisfy the wide needs of air separation across numerous industrial production.

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  • Advantages

    Comparing traditional molecular sieve 13X, JLPM product has following advantages
    • Higher adsorption capacity to different impurity gases
    • Faster adsorption rate
    • Extend adsorption cycle from 1.5 to 2 times
    • Dramatic energy saving

  • Storage

    The product should be stored in original pack or air-proof package in cool and dry conditions should not be left exposed to open air.

  • Regeneration

    Molecular sieve JLPM can be regenerated by increasing temperature or reducing the pressure.

Professional Package

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