Zeneris Pharma is a leader in manufacturing oxygen cylinder filling plant with world-class designing and the most advanced cryogenic air separation technology. The plant can generate oxygen with purity up to 99.7% and guarantees solid and efficient performance for a longtime with low maintenance, operational and energy consumption costs. It is fabricated and offered in different sizes and capacities ranging from 10m3/hr to 1000m3/hr. With high level of customization, the plant can easily be configured and customized to the requirement of customers in any industry. Built to perform seamlessly in all types of conditions, the plant will deliver optimum performance even in remote and harsh atmosphere.
Zeneris Pharma oxygen cylinder filling plant is fabricated at our sprawling factory in Delhi NCR (India) which boasts one of the largest air separation testing facilities. Our entire business is purposed to deliver the best quality products at competitive prices. The plant is totally automated with PLC technology enabling a single operator to control the operations requiring minimum manual input. Our technical team comprises of engineers, technicians and designers have top-notch expertise in their respective domains with their pulse on the market trends. Quality control dept is well-equipped to implement strict quality control measures. We use world-class components from world-class companies like Atlas Copco and ZEOCHEM. The plant being fully automated can run self-diagnosis for finding out errors and applying fixes in real time.
Cryogenic air separation process is used for onsite production of oxygen. The process involves liquefaction and separation of atmospheric air in the air separation unit (ASU). The process begins with taking in atmospheric air in the ASU which is filtered and compressed. Then the compressed air moves into a purification unit where impurities such as water vapor, hydrocarbon and carbon dioxide are evaporated back into the atmosphere. The purified air is now circulated into heat exchangers where cooled to cryogenic temperatures. After the air gets liquefied it moves into a high pressure distillation column where oxygen is separated from nitrogen and other trace gases. Oxygen is collected and is moved into a low pressure distillation column for distillation to achieve the desired purity.
It finds extensive applications in wide range of industries that require uninterrupted onsite supply of oxygen. Some of the industries are given below:
| Oxygen Production | |||||||
| Model | Capacity | Cylinder Filling/Day | Gas Purity | ||||
| 1 | ZEN 50 | 50 m3/hr | 200 | 99 to 99.99% | |||
| 2 | ZEN 100 | 100 m3/hr | 400 | 99 to 99.99% | |||
| 2 | ZEN 150 | 150 m3/hr | 600 | 99 to 99.99% | |||
| 3 | ZEN 200 | 200 m3/hr | 800 | 99 to 99.99% | |||
| 4 | ZEN 300 | 300 m3/hr | 1200 | 99 to 99.99% | |||
| 5 | ZEN 400 | 400 m3/hr | 1600 | 99 to 99.99% | |||
| 6 | ZEN 500 | 500 m3/hr | 2000 | 99 to 99.99% | |||
