O2 output 350m3/h±5%
O2 purity ≥99.6%O2
O2 pressure ~0.034MPa(G)
N2 output 800m3/h±5%
N2 purity ≤10ppmO2
N2 pressure ~0.012 MPa(G)
Product output status(at 0℃,101.325Kpa)
Start pressure 0.65MPa(G)
Continuous operation period between two defrosting times 12months
Start time ~24 Hours
Specific power consumption ~0.64kWh/mO2(not incl. O2 compressor)
Model |
KDON-50/50 |
KDON-80/160 |
KDON-180/300 |
KDON-260/500 |
KDON-350/700 |
KDON-550/1000 |
KDON-750/1500 |
KDON-1200/2000/0y |
O2 0utput (Nm3/h) |
50 |
80 |
180 |
260 |
350 |
550 |
750 |
1200 |
O2 Purity (%O2) |
≥99.6 |
≥99.6 |
≥99.6 |
≥99.6 |
≥99.6 |
≥99.6 |
≥99.6 |
≥99.6 |
N2 0utput (Nm3/h) |
50 |
160 |
300 |
500 |
700 |
1000 |
1500 |
2000 |
N2 Purity (PPm O2) |
9.5 |
≤10 |
≤10 |
≤10 |
≤10 |
≤10 |
≤10 |
≤10 |
Liquid Argon Ouput ( Nm3/h) |
—— |
—— |
—— |
—— |
—— |
—— |
—— |
30 |
Liquid Argon Purity ( Ppm O2 + PPm N2) |
—— |
—— |
—— |
—— |
—— |
—— |
—— |
≤1.5ppmO2 + 4 p p mN2 |
Liquid Argon Purity ( Ppm O2 + PPm N2) |
—— |
—— |
—— |
—— |
—— |
—— |
—— |
0.2 |
Consumption (Kwh/Nm3 O2) |
≤1.3 |
≤0.85 |
≤0.68 |
≤0.68 |
≤0.65 |
≤0.65 |
≤0.63 |
≤0.55 |
Occupied Area (m3) |
145 |
150 |
160 |
180 |
250 |
420 |
450 |
800 |
1.Air Compressor : Air is compressed at a low pressure of 5-7 bar (0.5-0.7mpa). It is done by using the latest compressors (Screw/Centrifugal Type).
2.Pre Cooling System : The second stage of the process involves use of a refrigerant for pre-cooling the processed air to temperature around 12 deg C before it enters the purifier.
3.Purification of Air By Purifier : The air enters a purifier, which is made up of twin molecular Sieve driers that function alternatively. The Molecular Sieve separates the carbon dioxide & moisture from the process air before the air reaches at air separation Unit.
4.Cryogenic Cooling of Air By Expander : The air must be cooled to sub zero temperatures for liquefaction. The cryogenic refrigeration and cooling is provided by a highly efficient turbo expander, which cools the air to temperature below -165 to-170 deg C.
5.Separation of Liquid Air into Oxygen and Nitrogen by Air Separation
6.Column : The air that enters the low pressure plate fin type heat exchanger is moisture free, oil free and carbon dioxide free. It is cooled inside the heat exchanger below sub zero temperatures by air expansion process in the expander.
7.It is expected that we achieve a difference delta as low as 2 degree Celsius at the warm end of exchangers. Air gets liquefied when it reaches at the air separation column and is separated into oxygen and nitrogen by the process of rectification.
Liquid Oxygen is Stored in a Liquid Storage Tank : Liquid oxygen is filled in a liquid storage tank that is connected to the liquefier forming an automatic system. A hose pipe is used for taking out liquid oxygen from the tank.
If you have any intersts to know more information, contact us: 0086-18069835230
Q1: Are you a trading company or manufacturer?
A: Depending on what type of machine you are purchased. Cryogenic ASU, the delivery time is at least 3 months. Cryogenic liquid plant, the delivery time is at least 5 months. Welcome to have a contact with our salesman: 0086-18069835230, Lyan.ji@hznuzhuo.com
Focus on providing mong pu solutions for 5 years.