Medical Oxygen Gas Generation Plant
Our company is acclaimed for manufacturing and fabricating high quality medical gas filling plant and medical oxygen filling station. Top quality raw materials are used in the fabricating of the plant machinery. In order to ensure that the machinery is top-class, we import the cutting-edge cryogenic distillation technology for manufacturing and fabricating of the plant machinery. Technology is bought only from the best industrial gas plant machinery manufacturers. The company is renowned all over the globe for its manufacturing credentials. Cryogenic technology is based on the process cycle of Linde & Claude, which was developed in the year 1930. Most of the European oxygen plant manufacturers use the process in the fabricating of the machinery. We manufacture and fabricate oxygen nitrogen plants of all sizes and capacities ranging from 20m3/hour to 5,000m3/hour.
Our factory is located at New Delhi (India) where we also have a fully equipped R & D center, where our experienced engineers and technicians innovate and update the medical gas filling plant machinery in accordance with the evolving needs of the clients. Our oxygen production plants are at par with the best in the world. Our medical gas filling plant is unmatched in its performance, innovation and prices. Each oxygen gas plant is put through rigorous testing before it is approved for shipment to the clients. We use the best quality control processes for manufacturing and fabricating oxygen gas plants. The plants are fabricated in compliance with international standards and qualities. We're top suppliers of medical oxygen plant sharjah, medicinal oxygen plants uae, air separation plant in uae dubai, oxygen plant in saudi arabia, medicinal oxygen plants saudi arabia, medical oxygen cylinder suppliers & exporters in UAE, Dubai. Medical gas filling plants are technologically superior and designed superbly to deliver seamless performance. We have been given ISO 9001:2008 and CE certifications.
Our medical oxygen cylinder filling plant taps atmosphere air, which is entered into the molecular sieve purification system where the process air is separated from the carbon dioxide and moisture. Afterwards, it is liquefied by cryogenic cooling by using the latest plate and fin, high efficiency heat exchanger s and expanders. The liquefied air gets separated into oxygen, nitrogen and various other inert gases in the air separation column.
Salient features of Medical Oxygen Gas Generation Plant:
- Hassle-free operation
- Solid design
- Low power consumption
- Low maintenance cost
- Low operating cost
- Low working pressure
- Fully Automatic operation via DCS system available
- Fully Containerized model available
Applications of Medical Cylinder Filling Plant Station:
- Chemical industry
- Medical Industry
- First-aid and emergencies
Scope and Supply:
1. Air compressor
Air is compressed at a low pressure of 5-7 bar using the latest compressor (screw/centrifugal type).
2. Pre Cooling System
In the second stage, a refrigerant is used for pre-cooling the process air to temperature around 12 degrees Celsius before it enters the purifier.
3. Purification of Air by Purifier
Air is made to go inside a purifier made of twin molecular sieve driers, working alternatively. The sieve separates the moisture and carbon dioxide from the process air before it enters the air separation unit.
4. Cryogenic Cooling of Air by Expander
Air is cooled to sub zero temperatures for liquefaction and cryogenic refrigeration. Cooling is provided by highly efficient expander. Air is cooled to temperatures below -165 to -170 degrees Celsius.
5. Separation If Liquid Air into Oxygen and Nitrogen by Air Separation Column
Air is cleaned of moisture and carbon dioxide before it enters the low pressure plate fin type heat exchanger where it is cooled below sub zero temperatures by air expansion process in the expander. However, a temperature difference delta as low as 2 degree Celsius can be achieved at the warm end of these exchangers. On reaching the air separation column, air gets liquefied and is separated into oxygen and nitrogen by the process of rectification.
6. Filling tanks/cylinders
It is the last step where compressed oxygen is directed to high pressure cylinders at 150 bar or higher. In case of liquid oxygen, it is stored in cryogenic tanks.
|Name of the Models||UB - 20||UB - 30||UB - 50||UB - 80||UB - 100||UB - 150||UB - 200||UB - 300||UB - 400||UB - 500||UB -1000|
|No. of Cylinders in a Day (Oxygen/Nitrogen)||80||100||200||300||400||600||800||1200||1600||2000||4000|