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Cryogenic Air Separation Plant Nm3/h KDON -1600 / 5600 ASU Molecular Sieve
Product Details:
Payment & Shipping Terms:
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Detailed Product Description
| Product Name: | Cryogenic Air Separation Plant | Type: | KDON |
|---|---|---|---|
| Material: | Carbon Steel, Al, Stainless Steel | Pressure (kPa G): | 10~150 |
| Purity: | ≥99.6%O2 ≤3ppmO2 | Delivery Term: | FOB Shanghai |
| Package: | Seaworthy Packing |
Cryogenic Air Separation Plant Nm3/h KDON-1600/5600 ASU Molecular Sieve
Specifications:
Standard Product for Cryogenic Air Separation Plant KDON 40~3860 Nm3/h (GAN)
|
MODEL CONTENTS |
KDON-1600 (50Y)/5600(50Y) |
KDON-1540/3860 |
KDON-1700/1700 |
KDON-1700(120Y)/40Y |
KDON-1800(40Y)/40Y |
|
|
GOX flow |
Nm3/h |
1600 |
1540 |
1700 |
1700 |
1800 |
|
LOX flow |
|
50Nm3/h |
/ |
/ |
120Nm3/h |
40Nm3/h |
|
GOX purity |
% |
99.6% |
≥95%O2 |
≥99.5%O2 |
99.5%O2 |
99.5%O2 |
|
LOX purity |
% |
99.6% |
/ |
/ |
99.6% |
99.6% |
|
GOX pressure |
kPa |
150 |
25 |
20 |
15 |
15 |
|
LOX pressure |
kPa |
200 |
/ |
/ |
150 |
150 |
|
GAN flow |
Nm3/h |
5600 |
3860 |
1700 |
/ |
/ |
|
LIN flow |
|
50Nm3/h |
/ |
/ |
40Nm3/h |
40Nm3/h |
|
GAN purity |
% |
≤3ppm O2 |
≥95%O2 |
≤10ppmO2 |
/ |
/ |
|
LIN purity |
% |
≤3ppm O2 |
/ |
/ |
≤5ppmO2 |
≤5ppmO2 |
|
GAN pressure |
kPa |
29 |
10 |
15 |
/ |
/ |
|
LIN pressure |
kPa |
400 |
/ |
/ |
200 |
200 |
Typical Product: KDON-1500(30Y)/1000(30Y) Cryogenic Air Separation Plant
Output, purity and pressure
|
Product |
Output (Nm3/h) |
Purity |
Pressure kPa(G) |
|
GOX |
1500 |
99.6% |
30 |
|
LOX |
30 |
99.6% |
150 |
|
GAN |
1000 |
≤5ppm O2 |
15 |
|
LIN |
30 |
≤5ppm O2 |
200 |
Description:
1. Feed air compression, pre-cooling and purification systems
Feed air from atmosphere is removed dust and mechanical impurity through air filter then enters into Air Compressor. Compressed air is sent into Air Pre-cooling System to be cooled.
Cooled air enters into Molecular Sieve Purification System for adsorption where moistures, carbon dioxide, acetylene and other hydrocarbons impurities are adsorbed. There are two alternative working adsorbers. When one adsorber works, the other is in regeneration.
2. Air rectification
Purified air from Molecular Sieve Purification System is sent into Main Heat-exchanger in where the purified air is cooled down by reflux cryogenic flow to saturation, and then flows into rectification column.
The liquid air we got in the bottom of column is sent to condenser-vaporizer on the top of column as condensate liquid after throttling. The oxygen enriched liquid air in the condenser -vaporizer is sent to main heat exchanger and rewarmed and then goes into turbo expander for expansion. The oxygen enriched air returns back to the cold end of heat exchanger after expansion, where oxygen enriched air is rewarmed to normal atmospheric temperature and then goes out of cold box. Part will be used as regeneration gas and other will be vent.
The product nitrogen drawn from the top of column flows to heat exchanger for rewarming and then send out of cold box to nitrogen consumer.
Applications:
- We supplied many countries (USA, Germany, Mexico, Indonesia, North Korea, Kazakhstan, Iran, Saudi Arabia, Egypt, Brazil, Hungary, Malaysia, Czech, Switzerland, Spain, Myanmar, Vietnam, Thailand, Russia, Mongolia, Syria, India, etc.)
- Pharmaceutical and biotechnology
- Papermaking
- Glassmaking
- Petroleum and natural gas
Competitive Advantage:
- Our company owns the most advanced technological level
- Powerful manufacturing capacity
- Short time delivery
- Good service
- No gas loss and high yield
- Low Maintenance Cost
Contact Details
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