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√ Primarily used for water adsorption √ Desiccant used in the petroleum and chemical industry for deep drying, refining, and polymerization Such as drying olefins, alkynes, polar liquids, cracked gas, liquefied petroleum gas, CO2, etc. √ High crush strength, long service life, technical indicators
√ Static drying of medical packaging, electronic components, and perishable goods √ Deep drying of gases and liquids, such as natural gas, argon, alkane gases, and refrigerants √ As a desiccant in paints, fuels, and coatings √ Removal of CO2, ammonia, and methanol from liquids
√ Air purification, dehydration, CO2 removal √ Various pressure swing adsorption devices for oxygen, hydrogen, and CO2 production √ Natural gas drying, dehydration, and desulfurization √ Separation of normal and isoalkanes
√ Air purification in air separation units, removal of water, CO2 and hydrocarbons √ For general gas deep drying √ Drying and desulfurization of natural gas, liquefied petroleum gas, and liquid hydrocarbons √ Oxygen production √ Preservation of fruits and medicinal materials √ Catalyst carrier
Oxygen-generating calcium-based molecular sieve (PFK-O901)
Oxygen-generating calcium-based molecular sieve (PFK-O901) Is an alkali metal aluminosilicate with a calcium X-type crystal structure.
Lithium-based molecular sieve for oxygen production (PFK-O902)
Lithium-based molecular sieve for oxygen production is a lithium X-type silicoaluminate crystal, an internationally advanced oxygen-producing molecular sieve. Applied in pressure swing adsorption (PSA) oxygen production devices, it features high nitrogen adsorption capacity, high nitrogen/oxygen separation coefficient, low-pressure adsorption, vacuum desorption, and easy desorption. Its nitrogen adsorption capacity is 2-3 times greater than that of type A oxygen-producing molecular sieves, and its nitrogen/oxygen separation coefficient is twice that of type A oxygen-producing molecular sieves. Lithium-based molecular sieves also have good wear resistance and a long service life, thus reducing energy consumption and operating costs, improving economic efficiency, and serving as a superior alternative to 5A (CaA) oxygen-producing molecular sieves.
PSA hydrogen production molecular sieve (PFK-H995)
It is an alkali metal aluminosilicate with a calcium A-type crystal structure. PSA hydrogen production molecular sieves can adsorb molecules with a critical diameter of no more than 5Å.
PSA-N₂ nitrogen generation dedicated carbon molecular sieve (CMS-N50 series)
PSA-N₂ nitrogen generation dedicated carbon molecular sieve (CMS-N50 series) Is a high porosity, high surface area carbon-based material. Because it contains a large number of micropores with a diameter of 4A, this micropore has a strong instantaneous affinity for oxygen molecules, and can be used to separate oxygen and nitrogen in the air. It is used in industry to produce nitrogen using PSA.
Activated alumina Large surface area, porous structure, reasonable pore size distribution
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