PSA O-1000 without compressor. Recommended for 1 kg O3/h ozone generator
PSA, Industrial oxygen generator of 7.2 Nm3/h, at a purity of 95% and a drying of -40ºC dew point, 230 V, 50-60 Hz, 1.8 kW, for ozone generator of 1 kg O3/h.
Includes:
Inlet filter 2 Nm3/min.
Refrigeration dryer 2.8 Nm3/min, 1 kW.
3 stage filter 2 Nm3/min. Oil <0.01ppm. Particles <0.01 microns.
Active carbon filter 2 Nm3/min. Oil < 0.003ppm.
Dry air buffer tank 300L, 8 bars, with safety valve.
2 Zeolite columns with capacity for 7.2Nm3/h,
300L oxygen lung tank, 8 bars.
Oxygen purity analyzer.
Flowmeter 1-10Nm3/h.
Integrated PLC.
Does not include compressed air compressor.
With CE marking.
Features:
Capacity to generate 7.2 Nm3/h of oxygen at 95% purity.
Oxygen outlet pressure: 0-5.5 bars, and -40ºC dew point.
Compressed air connection: DN 25.
Oxygen outlet connection: DN 25.
Nitrogen outlet connection: to silencer.
Weight: 2900kg.
Length x width x height: 2100 x 1600 x 2150 mm.
Requirements:
Requires a compressed air supply of 1.44 Nm3/min.
Power supply: 230 V, 50-60 Hz. 1.8 kW.
Room conditions: -20ºC to 40ºC, humidity <80%.
Dust in air <200mg/m3. H2S, SO2 <0.25mg/m3. CO2<600ppm. CnHm <0.05mg/m3.
Leave a free space of 800mm around the equipment.
Keep the room ventilated.
Do not install outdoors.
Manufacturing in 60-90 days
Industrial PSA Oxygen Generator
Technical specifications
What is it used for?
This oxygen concentrator is specifically used to generate ozone. Ozone is used in wastewater purification and disinfection treatments (WWTP), and public water purification (DWTP). It is also used in bleaching processes in the textile or paper industry. Also in fish farms, aquariums, recovery of lakes and agricultural ponds, irrigation water, etc.
Functioning
The oxygen concentrator receives dry, grease-free air from the air compressor, and is passed through the zeolite columns A, where the nitrogen is captured in the zeolite molecular structure, allowing only oxygen to pass through. When column A becomes saturated with nitrogen, the supply air is redirected to column B, depressurizing column A and releasing the nitrogen into the atmosphere. This cycle is repeated cyclically, always maintaining a constant flow of highly concentrated oxygen. The oxygen obtained is stored in an outlet buffer tank to stabilize the supply.