Liquid Oxygen Plant
Product Details:

Technology Used	Cryogenic
Brand	ING. LA. BOSCHI
Design	Customized
Voltage	440 V
Approval & Licenses	CE, ISO
No. Of Cylinders In A Day	200 Cylinder Filling per day
I Deal In	New Only
Technology	ING L.&A. BOSCHI,ITALY (Since 1930)
Capacity	50 m3/hour (200 Cylinder/Day)
Is It Leak Proof	Leak Proof
Usage/Application	Medical Hospital
Automation Grade	Fully-Automatic
Oxygen Purity	99.7%
Operating Air Pressure	0.5 to 15 Mpa
Frequency	50 Hz
Phase	3

We manufacture & expert oxygen plant (50 m3/hr) manufactured with the advanced cryogenic technology. Our oxygen production systems can generate oxygen with purity up to 99.7%, which is considered excellent for use in industrial and medical applications. The oxygen machinery is fabricated in different capacities ranging from 20m3/hour to 1000m3/hour.  The best quality materials and components are used in the making of the machinery to ensure it is top-class in efficiency, reliability and performance.  The plant is fully automated can function even unattended and can perform full self-diagnosis of the working the system. If the oxygen purity level falls below the prescribed level, an alarm is sounded off and the plant is shut off. Our oxygen plant offers impressive return on investment (ROI) allowing you to break even within two years. We fabricate and supply only CE certified machinery at very competitive prices. 
Salient features 

• Easy installation and commissioning
  Low power consumption due to Low pressure (5 to 7 Bar) process
  Low maintenance  
  Fully automatic air cooled design Rotary Air Compressor
  CE certified product with design as per European Gas Association guidelines  
  Cryogenic expansion of air for cooling via Expansion Turbines
  No special civil foundation required for any part of the plant
  Hydrocarbon vapor level reduced below 0.003 PPM to ensure safe operation
  Working principle of oxygen plant Oxygen plant works through cryogenic air separation which takes atmospheric through the inlet of the air separation unit. After being compressed, the process air is sent into the molecular sieve system where it is cleaned off impurities such as hydrocarbons, moisture and carbon dioxide. On being passed through the heat exchangers, the air is cooled to cryogenic temperatures. Now, the air is passed through high pressure distillation column where oxygen is separated from other gases like nitrogen. A liquid form of oxygen is formed at the top of the column. Oxygen so formed is put into a low pressure distillation column where it is distilled to specified purity.