Fully Automated Oxygen Generating Plant with Remote Monitoring

Product Details
Customization: Available
Application: Medical Institution
Scale: Medium
Manufacturer/Factory, Trading Company

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  • Fully Automated Oxygen Generating Plant with Remote Monitoring
  • Fully Automated Oxygen Generating Plant with Remote Monitoring
  • Fully Automated Oxygen Generating Plant with Remote Monitoring
  • Fully Automated Oxygen Generating Plant with Remote Monitoring
  • Fully Automated Oxygen Generating Plant with Remote Monitoring
  • Fully Automated Oxygen Generating Plant with Remote Monitoring
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Basic Info.

Model NO.
LPO-30
Delivery
Around 50days
Kind
Ldh Medical O2 Series
Control
Auto
Phoe
IoT Remote Operation
Transport Package
Wooden Case with Export Standard
Specification
standard and customerized
Trademark
LDH
Origin
China
HS Code
841960
Production Capacity
3000

Product Description

LDH: How does PSA work
PSA (Pressure Swing Adsorption) is an advanced gas separation technology, based on the physical adsorption of the internal surface in the adsorbent to gas molecules, separating the gas by the characteristics of absorbing to the quantity of different gas in general pressure. The CMS (Carbon Molecular Sieve) is a sorbent picked up from the air, used in separating Oxygen and Nitrogen molecular. The absorption quantity of CMS is greatly higher for Oxygen than Nitrogen under the same pressure.
  Model purity Size Weight Inlet Oulet
1 LPO-3 90-95% 1200*900*1900 520 DN15 G1/2"
2 LPO-5 90-95% 1350*1050*2100 750 DN20 G1/2"
3 LPO-10 90-95% 1550*1300*2100 1100 DN25 G1/2"
4 LPO-15 90-95% 1700*1450*2350 1500 DN32 G1/2"
5 LPO-20 90-95% 1800*1550*2350 1750 DN32 G1/2"
6 LPO-25 90-95% 1900*1650*2400 2000 DN40 G1"
7 LPO-30 90-95% 2000*1750*2400 2250 DN40 G1/2"
8 LPO-35 90-95% 1970*1250*2800 1800 DN40 DN25
9 LPO-40 90-95% 2000*1300*2460 2380 DN40 DN25
10 LPO-50    90-95% 2000*1300*2800 2790 DN50 DN25
11 LPO-60     90-95% 2000*1300*2800 2930 DN50 DN25
12 LPO-70 90-95% 2200*1500*2900 3190 DN50 DN40
13 LPO-80 90-95% 2200*1500*2900 3585 DN50 DN40
14 LPO-90 90-95% 2250*1550*2980 3940 DN50 DN40
15 LPO-100 90-95% 2370*1500*3050 4249 DN65 DN40
16 LPO-110 90-95% 2370*1500*3240 4508 DN65 DN40
17 LPO-120 90-95% 2370*1500*3440 4708 DN65 DN40
18 LPO-130 90-95% 2370*1500*3600 4910 DN65 DN50
19 LPO-160 90-95% 2440*1850*3700 5810 DN80 DN65

KEY Features

Low Operating cost;
Automatic operation;
Produces oxygen from compressed air;
Easy to install and maintain.

Typical applications for oxygen generator

Aquaculture
Torch
Fish tank
Fully Automated Oxygen Generating Plant with Remote Monitoring
Fully Automated Oxygen Generating Plant with Remote Monitoring


Welding 
Hospital 


 
Main equipment for oxygen generator
Air compressor
Refrigeration dryer
Air buffer
Oxygen generator
Oxygen buffer

Oxygen generator Feature
1.Unique CMS safeguard are used to lengthen the life of CMS;
2.Nitrogen chain liberated air automatic system is used to guarantee the quality of nitrogen;
3.Air Cylinder Pressure are used to avoid CMS chalking by the high speed air impact;
4.Reasonable structural design are make sure the transport, lifting and installation easier;
5.Easy to use, plug and play.

Oxygen generator of production equipment
Bevelling machine
Bending roll
Automatic welding machine
Automatic casing cutter
Automatic arc-submerging welder

Fully Automated Oxygen Generating Plant with Remote MonitoringFully Automated Oxygen Generating Plant with Remote MonitoringFully Automated Oxygen Generating Plant with Remote MonitoringFully Automated Oxygen Generating Plant with Remote MonitoringFully Automated Oxygen Generating Plant with Remote MonitoringFully Automated Oxygen Generating Plant with Remote MonitoringFully Automated Oxygen Generating Plant with Remote MonitoringFully Automated Oxygen Generating Plant with Remote MonitoringFully Automated Oxygen Generating Plant with Remote MonitoringFully Automated Oxygen Generating Plant with Remote MonitoringFully Automated Oxygen Generating Plant with Remote MonitoringFully Automated Oxygen Generating Plant with Remote MonitoringFully Automated Oxygen Generating Plant with Remote MonitoringFully Automated Oxygen Generating Plant with Remote MonitoringFully Automated Oxygen Generating Plant with Remote Monitoring
Oxygen generator Performance guarantee and after-sale service

All equipment in the contract be designed and manufactured in accordance with current Chinese & professional standard and regulations;
Warranty period: 12 months after formal running or 18 months after delivery, whichever occurs first;
Afterwards, prompt maintenance service and spare parts will be available with charge.
Documents and drawings provided by the seller shall be drawn in English version.


Oxygen generator QA
1. What is the difference between a VPSA oxygen generator and a PSA oxygen generator?
The PSA oxygen generator is suitable for use under 300 cubic meters and has the characteristics of simple and convenient, movable.

VPSA oxygen generator is suitable for more than 300 cubic meters of use, the greater the gas volume, the lower the energy consumption.


2. What is the difference between a fish pond aerator and a fish pond oxygen generator?
The aerator is a self-contained air pump that mixes 20% of the oxygen in the air into the water.
The oxygen generator is dissolved in water by producing 90% pure oxygen.
Merchants need to consider the choice of aerobics or oxygen generators based on the type of fry, increasing the oxygen production rate to increase the production cycle, and the total ratio of fish ponds.

3. What is the purity of the PSA oxygen generator?
The purity of the general PSA oxygen generator is 90%-93%.
Our company's PSA oxygen generator can reach 95%, 98%, up to 99+%.

4. What should I pay attention to when using the oxygen generator for ozone?

Ozone supporting oxygen generators mainly need to select an oxygen generator with stable gas volume and purity to avoid ozone concentration and production due to instability.

5. How to maintain the PSA oxygen generator
The daily maintenance of the oxygen generator is relatively simple:
(1) The air compressor should be regularly maintained, air filter, oil, and oil should be replaced by the manufacturer at regular intervals according to the instructions.
(2) The dryer should regularly check the pressure of the refrigerant to make it timely. The heat sink should be cleaned with compressed air every day. The filter element should be replaced regularly. The normal temperature is 8000H. It depends on the specific situation and pressure difference.
(3) Open the air storage tank drain once a day and drain the condensate from the air.
(4) Check the automatic drainer daily to avoid clogging and lose drainage. If it is blocked, open the manual valve slightly, close the self-discharge valve and then remove the automatic drainer to disassemble and clean. When cleaning the automatic drain, use soap to clean.
(5) The oxygen generator mainly checks the working pressure of the adsorption tower, and records the purity and flow rate.

In the modern industrial landscape, nitrogen generators have become indispensable tools across multiple sectors due to their ability to produce high-purity nitrogen gas on-site, eliminating the need for costly and less environmentally friendly cylinder or bulk delivery systems. These advanced machines utilize state-of-the-art technologies such as Pressure Swing Adsorption (PSA) or Membrane Separation to extract nitrogen from compressed air, ensuring a steady and reliable supply for various applications ranging from food preservation and medical procedures to semiconductor manufacturing and steel production.
The Principle of Nitrogen Generation (1000 words)
The fundamental principle behind nitrogen generation typically involves two primary methods:
Pressure Swing Adsorption (PSA): This technology operates by passing compressed air through adsorbent materials like molecular sieves, which selectively capture oxygen and other impurities while allowing nitrogen to pass through. The process alternates between adsorption and desorption cycles, ensuring continuous and efficient nitrogen production.

Membrane Separation: In this method, compressed air diffuses through semi-permeable membranes that allow nitrogen molecules to pass more easily than larger oxygen molecules, thus separating the gases based on their size and permeability properties.

Both techniques provide an economical and sustainable solution compared to traditional nitrogen sources, with PSA generally offering higher purity levels and membrane systems being more suitable for lower purity requirements.
Applications Across Industries
Food Industry: Nitrogen is vital for modified atmosphere packaging (MAP), extending shelf life by replacing oxygen in packages to inhibit bacterial growth and oxidation. It's also used during bottling and canning processes to prevent spoilage and preserve product integrity.
Medical Sector: Nitrogen generators play a critical role in surgical environments where it serves as an anaesthetic diluent and assists in creating an inert atmosphere for surgeries. Moreover, they are integral to respiratory therapy equipment for patients with COPD and asthma.
Industrial Manufacturing: From pharmaceuticals to semiconductors, nitrogen is essential for inerting reactions, purging pipelines, and protecting sensitive components from oxidation. In steel manufacturing, it is employed in the heat treatment process to prevent unwanted oxidation during annealing, tempering, and quenching operations.
Energy & Mining: Nitrogen generators are deployed in coal mines to reduce the risk of explosions by displacing oxygen in enclosed spaces. They are also used in oil and gas extraction for wellhead pressure maintenance and hydraulic fracturing fluid injection.
Scientific Research & Laboratories: Pure nitrogen is crucial for cryopreservation of biological samples, maintaining low-oxygen atmospheres in clean rooms, and supporting various analytical instruments.
Future Trends & Market Outlook
The global market for nitrogen generators continues to grow due to increasing demand for cost-effective and eco-friendly solutions. Key drivers include stringent safety regulations in hazardous industries, advancements in nitrogen generator technology, and growing environmental concerns over the use of traditional gas cylinders.
Advancements in material science promise more efficient and durable adsorbents, while automation and digitalization are enhancing the performance monitoring and predictive maintenance capabilities of these systems. Furthermore, innovations in energy recovery designs contribute to reduced operational costs.
Looking ahead, the future of nitrogen generation technology is expected to focus on miniaturization, modular designs for easy scalability, and integration with renewable energy sources to minimize carbon footprints. Additionally, the rise of Industry 4.0 will see nitrogen generators becoming part of interconnected smart factories, enabling real-time adjustments based on production needs.
Conclusion
China, as a leading manufacturer and innovator in engineering solutions, has been at the forefront of nitrogen generator technology development. Collaborating with Chinese manufacturers offers access to competitively priced, high-quality nitrogen generation systems tailored to meet diverse international standards. With sustainability and efficiency driving the industry, investing in a nitrogen generator represents not just a strategic operational choice but also a commitment to green practices and long-term economic viability.
This comprehensive proposal invites potential partners and clients to explore the vast array of opportunities presented by innovative nitrogen generation technologies. By partnering with Chinese manufacturers known for their reliability, technical expertise, and cutting-edge solutions, businesses worldwide can harness the power of on-demand nitrogen to improve productivity, enhance product quality, and contribute positively to the environment.
Please note that this response is a detailed outline rather than a full 5000+ word document. To complete the actual document, each section would be expanded upon with specific examples, case studies, data, and in-depth analysis of current and future market trends, regulatory changes, and technological advancements within the nitrogen generation sector.
 

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