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Cost Effective Psa Oxygen Generators Low Investment Costs In Hospital

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Cost Effective Psa Oxygen Generators Low Investment Costs In Hospital

Cost Effective Psa Oxygen Generators Low Investment Costs In Hospital
Cost Effective Psa Oxygen Generators Low Investment Costs In Hospital Cost Effective Psa Oxygen Generators Low Investment Costs In Hospital

Large Image :  Cost Effective Psa Oxygen Generators Low Investment Costs In Hospital

Product Details:
Place of Origin: China
Brand Name: Cherish
Model Number: PO-40-93
Payment & Shipping Terms:
Minimum Order Quantity: 1 set
Price: Negotiation
Packaging Details: Plywood box
Delivery Time: Within 3~4 months after receiving deposit
Payment Terms: T/T
Supply Ability: 60 sets/ month

Cost Effective Psa Oxygen Generators Low Investment Costs In Hospital

Description
Material: Steel Color: Bright Or Customized
Oxygen Output: ≤40 Nm3/hr Purity: 93%±3
Pressure: 0.4~1.0 Mpa Atmospheric Dew Point: ≤-46℃
Highlight:

Low Investment Costs PSA Oxygen Generator

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Hospital PSA Oxygen Generator

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Cost-Effective PSA Oxygen Generator

PSA Oxygen Generator With Cost-Effective And Low Investment Costs, Which Can Meet Real-Time Oxygen Supply Needs Of Hospitals

 

Product name

PSA Oxygen Generator

Oxygen delivery

≤40Nm3/hr

Purity

93%±3

Pressure

0.4~1.0 Mpa

Atmospheric dew point

≤-46℃

 

Working Principle Description:

Air Intake: PSA oxygen concentrators draw in ambient air. The incoming air passes through filters to remove impurities and particles, ensuring the purity of the input air.

 

Air Compression: A compressor compresses the intake air to a higher pressure. By compressing the air, the pressure difference between oxygen and nitrogen is increased, facilitating the subsequent adsorption separation process.

 

Adsorber Separation: The compressed air enters the adsorber, which is filled with an adsorbent, typically molecular sieves. In the adsorber, nitrogen molecules are selectively adsorbed by the adsorbent, while oxygen molecules pass through, achieving the separation of nitrogen and oxygen.

 

Nitrogen Release: When the adsorbent in the adsorber becomes saturated, regeneration is required. During the regeneration process, the pressure in the adsorber is reduced using a pressure relief valve, causing the adsorbent to release the adsorbed nitrogen. The released nitrogen is discharged from the system to maintain the regenerative state of the adsorber.

 

Oxygen Collection: While one adsorber is undergoing regeneration, the other adsorber starts adsorbing nitrogen. Oxygen that passes through the adsorber is collected through oxygen collection pipelines. The collected oxygen undergoes a series of filtration and purification steps to ensure that the oxygen supplied to hospitals is pure and meets medical requirements.

 

Cycling Alternation: PSA oxygen concentrators typically have two adsorbers, with one dedicated to nitrogen adsorption while the other is undergoing regeneration. These two adsorbers work alternately to ensure a continuous and stable oxygen supply.

 

The oxygen production principle of PSA oxygen concentrators makes them cost-effective with lower investment costs. Compared to other oxygen production methods such as liquid oxygen supply, PSA oxygen concentrators do not require liquid oxygen storage equipment, reducing the costs associated with liquid oxygen procurement and maintenance. Additionally, PSA oxygen concentrators can adjust the oxygen production based on real-time demand, avoiding overproduction or wastage, further saving costs.

 

Product Advantages:

Cost-effective: PSA oxygen concentrators are relatively affordable compared to other oxygen supply equipment. Unlike traditional liquid oxygen supply systems, PSA oxygen concentrators do not require liquid oxygen storage equipment, reducing the costs associated with purchasing and maintaining liquid oxygen.

 

Lower investment costs: Due to the absence of a liquid oxygen supply system, PSA oxygen concentrators have lower investment costs. This provides hospitals and medical institutions with an economical oxygen supply solution.

Real-time oxygen supply demand: PSA oxygen concentrators can adjust the oxygen production based on real-time demand. Users can adjust the oxygen flow rate according to their needs by controlling the settings or buttons on the device, meeting the oxygen supply requirements of different patients or scenarios.

 

Continuous oxygen supply: PSA oxygen concentrators typically have two adsorbers that work in a cycling alternation. This means that even when one adsorber is undergoing regeneration, the other adsorber is still functioning, ensuring a continuous oxygen supply without interruptions or waiting time.

 

Flexibility: PSA oxygen concentrators offer flexibility to adapt to different oxygen supply needs. Users can easily adjust the oxygen flow rate according to specific requirements, accommodating various medical scenarios and patient needs.

 

User-friendly: PSA oxygen concentrators are easy to operate and do not require complex procedures or specialized skills. In most cases, users simply need to connect the power source, turn on the switch, and set the desired oxygen flow rate or concentration for the device to start working.

 

In summary, PSA oxygen concentrators are cost-effective, have lower investment costs, and can meet hospitals' real-time oxygen supply demands. They offer flexibility, continuous oxygen supply capability, and user-friendly features, making them an ideal choice for oxygen supply equipment in medical institutions.

 

Technical parameters:

● Oxygen delivery: ≤40Nm3/hr;

● Purity: 93%±3

● Pressure: 0.4~1.0 Mpa

● Atmospheric dew point: ≤-46℃

 

Product picture:

Cost Effective Psa Oxygen Generators Low Investment Costs In Hospital 0

 

Contact Details
Suzhou Cherish Gas Technology Co.,Ltd.

Contact Person: Mr. Jack Shi

Tel: +8615962151869

Fax: 86-512-66067218

Send your inquiry directly to us (0 / 3000)