Product Details:
Flow Rate(LPM)/(Nm3/hr) | 125 LPM / 7.5 Nm3/Hr |
Air Compressor (kW) | 55 kW |
Technology Used | PSA (Pressure Swing Adsorption) |
Purity Of Oxygen | 93+-3% |
Application | Medical |
Approval & Licenses | U.S. FDA, CE |
Outlet/Discharge Pressure | 4 Bar (g) |
Product Details:
Approval & Licenses | ISO, U.S. FDA, CE |
Technology Used | Cryogenic |
Flow Rate(LPM)/(Nm3/hr) | 1000 LPM / 60 Nm3/Hr |
Air Compressor (kW) | 55 kW |
Purity Of Oxygen | 97+-3% |
Purity Of Nitrogen | 97+-3% |
Type of Compressor | Screw Air Compressor |
Application | Industrial |
Type of Dryer | Refrigerated Type Air Dryer |
The air passes through the air filter, enters the air compressor, compresses to 0.7mpa in the compressor, and then enters the purifier after cooling, where the impurities such as water, carbon dioxide and acetylene in the air are removed. The purified air enters the heat exchanger for heat exchange with the backflow polluted oxygen. A part of the gas is pumped into the turbine expander through the outlet of the heat exchanger, and the expansion provides a cooling source for the whole set of devices. The other gases continue to cool through the second heat exchanger and then enter the rectifying tower, where they are
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separated by oxygen and nitrogen. Finally, qualified liquid oxygen is obtained from the top of the rectifying tower. After decompression by the throttle valve, the liquid air at the bottom enters the condensing evaporator at the top of the tower and the oxygen heat exchange at the top of the rectifying tower, and then passes through the cooler, the second heat exchanger and the main heat exchanger cooling box as the regenerative purifier.