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Product Description
YAMTOP oxygen enrichment molecular sieve series are special used in PSA/VPSA system. They have good N2/O2 selectivity, good crush strength and low loss on attrition, which is cost-effective for concentrating oxygen from air. They are widely used in industrial/medical oxygen concentrator in ozone production filed, aquaculture field for fish farming,waste water treatment field, medical oxygen market. etc. Their concentating purity up to 93%+-3%, having good reputation in market.
Lithium Molecular Sieve has exceptional nitrogen capacity, extraordinary kinetics and superior selectivity to yield high-purity oxygen streams from the air with outstanding mechanical strength and durability.Get a quote.
1.Lithium based molecular sieve is a synthetic zeolite of lithium-type crystal structure, large Nitrogen adsorption capacity, high efficiency of oxygen/nitrogen separation.Thus, gives a facility to use this system in future operations as well.
2.Lithium based molecular sieve shows high N2/O2 separation under a very low pressure, which lowers the consumption of producing oxygen.
3.The advantage of on the equilibrium adsorption capacity, and lithium molecular sieve is applies to various VPSA device for oxygen concentrator.
| Model | 13X HP Molecular Sieve | Lithium Based Molecular Sieve | ||
| Diameter | 0.4-0.8MM | 1.6-2.5MM | 0.4-0.8MM | 1.3-1.7MM |
| Bulk density | ≥0.62g/mL | ≥0.62g/mL | ≥0.63g/mL | ≥0.63g/mL |
| Crushing strength | / | ≥25N/piece | / | ≥11N/piece |
| Static N2 Adsorption (1bar, 25°C) | ≥8mL/g | ≥8mL/g | ≥22mL/g | ≥22mL/g |
|
N2/O2 Separation (1bar, 25°C) |
≥3 | ≥3 | ≥6.2 | ≥6.2 |
| Attrition | ≤0.3wt.% | ≤0.3wt.% | ≤1wt.% | ≤1wt.% |
| Moisture Content | ≤0.5wt.% | ≤0.5wt.% | ≤0.5wt.% | ≤0.5wt.% |
| Application | Medical care oxygen generator, small, portable oxygen concentrators Capacity: 1L/min-10L/min | Industrial and Medical Oxygen Generator/Plant, hospital oxygen concentrators of PSA system Capacity: <300Nm3/hour |
Medical care oxygen generator, small, portable oxygen concentrators Capacity: 1L/min-10L/min |
Industrial and Medical Oxygen Generator/Plant, hospital oxygen concentrators of PSA system Capacity: 300-10000Nm3/hour |
| Purity | 93%±3% | 93%±3% | Over 93% | Over 93% |
It should be handled to avoid generation of dusty conditions at the workplace. Storage in a dry warehouse is recommended. Open packages should be resealed to prevent contamination and adsorption of water or other gases and vapors. The material in bag-in-box should be used within 12 months,while bag-in-steel drum should be used within 24 months.
YAMTOP molecular sieve can be regenerated by either heating in the case of thermal swing process or by lowering the pressure in the case of pressure swing process. Put the molecular sieve in a vacuum muffle furnace for 1 hour at 550℃.
The invention of portable oxygen concentrators (or oxygen generators as they are often called) commoditised the availability of high purity medical grade oxygen. These portable devices use a pressure swing principle (PSA) to pass ambient air through a molecular sieve adsorbent, concentrating oxygen in the process.
Portable oxygen concentrators allow for easy home-based patient care, indoor air-quality enhancement, and other non-industrial uses. Since most commercially available oxygen concentrators are designed around a standard operating principle, the choice of adsorbent is critical for maximising oxygen generation. In this brief article, we will help you decide on the best molecular sieve for use in portable oxygen concentrators.
While sodium-based zeolites are readily available for a variety of pharmaceutical applications, studies have shown that ion-exchanged lithium-based molecular sieve has far superior oxygen recovery performance over sodium-based 13X and 5A molecular sieve. From a technical standpoint, when the Na+ cation in sodium-based molecular sieve is replaced with the Li+ cation, the zeolite has a much stronger interaction with the quadrupole moment of each nitrogen molecule passing through the cartridge. This translates to high efficiency, high purity (93% ±3%) oxygen recovery at ambient temperature for portable concentrators using lithium-based molecular sieve cartridges.
Lithium-based molecular sieve has approximately double the nitrogen/oxygen selectivity of sodium-based molecular sieve and almost three times more capacity for the adsorption of static nitrogen. With a higher product gas capacity than sodium-based molecular sieve, lithium-based molecular sieve stands as the better choice for faster production of high-purity concentrated oxygen for urgent patient care. Additionally, with the use of lithium-based molecular sieve, oxygen concentrators can be manufactured with an exceedingly small footprint, making them ideal for the often space-restricted home-based care environment.
Molecular sieve, a synthetic zeolite, has excellent adsorptive properties that have been exploited in several desiccant technologies that are widely used in the pharmaceutical and food industries. Additionally, molecular sieve binds nitrogen, separating it from oxygen in the air and it is this property that has made it the ideal adsorbent for portable oxygen concentrators. Most portable oxygen concentrators use either the pressure swing adsorption (PSA) or vacuum pressure swing adsorption (VPSA) mechanisms to separate high-purity medical grade oxygen from ambient air. This is achieved by passing a flow of air over a molecular sieve cartridge that is housed within the concentrator. As the pressure of air in the concentrator swings, nitrogen is adsorbed by molecular sieve, allowing high-purity oxygen to pass into the flowthrough. The purified oxygen (93% ±3%) is then pumped through an outlet for use in patient care or in other scenarios as required.
The high affinity and reversible binding of nitrogen to molecular sieve also enables the creation of long-lasting, self-cleaning portable oxygen generators. While the oxygen concentrator is in operation, it uses one molecular sieve cartridge to concentrate oxygen. Some of the purified oxygen is then fed into a secondary molecular sieve cartridge to clean out any bound nitrogen molecules. This done in anticipation of a decreased binding efficiency in the primary cartridge over time. Once the first molecular sieve cartridge is saturated, the oxygen generator then feeds air through the secondary cartridge to concentrate oxygen while also back feeding the first cartridge to remove bound nitrogen from the molecular sieve matrix.
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