Product Details:
Oxygen Generator Capacity (Nm3/hr) | 1000 Nm3/Hr |
Purity Of Oxygen | 93+-3% |
Brand | E TECH |
Automation Grade | Fully-Automatic |
Design | Customized |
Country Origin | Made In India |
Product Details:
Purity Of Oxygen | 93+-3% |
Application | Industrial |
Automation Grade | Fully-Automatic |
Design | Customized |
Country Origin | Made In India |
Our firm is counted amongst the significant names, offering a wide range of excellent quality Nitrogen Plant. It consists of twin tower system filled with a special grade of carbon molecular sieves (C.M.S.) at a time, one tower keeps in the production cycle and other in the regeneration cycle. Our experts only use high-grade components and latest technology while manufacturing this plant. The offered plant is widely appreciated all over the nation for its salient attributes. With our quality range, we are able to maintain a strong foothold in this industry.
Features:
Our Nitrogen Plant operating on PSA technology consists of twin tower system filled with a special grade of carbon molecular sieves (C.M.S.) at a time, one tower keeps in the production cycle and other in the regeneration cycle. When compressed air passed through C.M.S. bed, the molecules of oxygen, moisture other unwanted gases are adsorbed on the surface of C.M.S. and the nitrogen which is not adsorbed by C.M.S comes out of adsorption tower and is collected in a surge vessel.
E TECH – S MODEL PSA NITROGEN PLANT
Our E TECH – S Model Nitrogen Plant/Generator operating on PSA technology consists of twin tower system filled with a special grade of imported carbon molecular sieves (C.M.S.) at a time, one tower keeps in the production cycle and other in the regeneration cycle. When compressed air passed through C.M.S. bed, the molecules of oxygen, moisture other unwanted gases are adsorbed on the surface of C.M.S. And the nitrogen which is not adsorbed by C.M.S comes out of adsorption tower and is collected in a surge vessel. Two adsorption towers are provided which are interconnected with auto change over valves controlled by a sequence programmer (PLC). When one tower saturates with oxygen the process automatically changes over to another tower. This ensures the continuous production of the Nitrogen gas.