High Efficiency Molecular Sieve Adsorbent For Pressure Swing Adsorption N2 Unit

Carbon Molecular Sieve Adsorbents for Psa N2 Unit

DESCRIPTION:

Carbon Molecular Sieve used in the PSA Nitrogen generation, the Nitrogen generation by Pressure Swing Adsorption (PSA) process is a technology used to separate nitrogen from a mixture of gases under pressure according to the special selective adsorption characteristics of the Carbon Molecular Sieves (CMS).

The Carbon molecular sieve is a material containing tiny pores of a precise and uniform size that is used as an adsorbent for gases. When the pressure is high enough, the oxygen molecules, which pass through the pores of CMS much faster than the nitrogen molecules, are adsorbed, while the coming out nitrogen molecules will be enriched in gas phase. The enriched oxygen air, adsorbed by the CMS, will be released by reducing the pressure. Then the CMS is regenerated and ready for another cycle of producing nitrogen enriched air.

PHYSICAL PROPERTIES:
Diameter of the CMS granule: 1.1-1.3mm
Period of adsorption: 120S
Bulk density: 680-700g/L
Compressive strength: ≥ 95N/ granule

SERVICE SCOPE:
The following merits of service:
High ratio performance & price, reducing investment cost and operation cost.
Large hardness, little ash, long service life, uniform particles which protests air current impact.
Stable quality: Testing strictly according to 100% standard of production and ex-factory testing management.
The resin uses in producing the high pure nitrogen with good performance which substitutes the similar import products.

PSA NITROGEN GENERATION PROCESS:

1) Air Feed System
The environmental air supplied to the PSA system should be compressed and purified to get rid of the dust, the oil and water.

2) PSA Nitrogen Generation System
While the compressed and purified air flows through the adsorbent bed with CMS inside in a bottom up way under the pressure of 0.6MPa, the oxygen molecules will be adsorbed by the solid surfaces of the CMS, and the enriched nitrogen will be output from the top of the bed to the container.

When the adsorbent bed reaches the end of its capacity to adsorb oxygen, it can be regenerated by reducing the pressure, thereby releasing the adsorbed oxygen. Using two adsorbent beds to absorb and regenerate in turn allows producing continuous nitrogen in cycle.

PACKING:

By plastic drum, each drum 20kgs net, palletized with wrapped.

SPECIFICATIONS:

ACTURAL PACKAGING: