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High Purity Nitrogen Generator Plant / PSA nitrogen generation 10ppm

Place of Origin: Zhejiang

Company Profile

Location: Hangzhou, Zhejiang, China (Mainland)
Business Type: Manufacturer
Main Products: Argon Plant, Argon Gas Generator, Cryogenic Air Separation Plant

Product Detail

Model No.: KDN

Product Description

 

Nitrogen generation plant  5000 Nm3/h / 170 L/h   KDN-5000/170Y

 

Specifications:

 

The Standard Products List KDN 5000~6000 Series Nitrogen Generation Plant

 

MODEL

CONTENTS  

KDN-5000/200Y

KDN-5000/400Y

KDN-5100/200Y

KDN-4820/300Y

GAN/LIN flow

Nm3/h

5000/200

5000/400

5100/200

6000/140

GAN/LIN  purity

ppm

8ppm(O2)

10ppm(O2)

1ppm(O2)

10ppm(O2)

 GAN/LIN pressure

MPa

0.9

0.65

0.5

0.3

Subcooled

13/-169

13/-173

13/-173

13/-181

 

 

 

Typical Product:         KDN-5000/170Y  Nitrogen generation plant

Output, purity and pressure

First operating mode:

 

 

Flow (Nm3/h)

Purity

Pressure MPa(G)

Subcooled ()

GAN/LN

5000 Nm3/h / 170 L/h

≤10ppm(O2)

0.6

13/-171

 

 

Description:

 

     This plant employs a process in which the air is purified by molecular sieve, expansion turbine is provided with braking effected by fan and nitrogen is produced by means of single column with expansion accomplished through backflow.

       After the feed air is cleaned of dust and mechanical impurities in air filter, it is compressed in air compressor.

      The compressed air is then fed into air pre-cooling system. When it is cooled to about 5~8, it becomes saturated.

      The saturated and compressed air flows into switched molecular sieve adsorbers where such hydrocarbons as H2O, CO2 and C2H2 are adsorbed from the air.

       A small part of purified process air is drawn out to be used as instrument air and the remainder is fed into main heat exchanger. The expanded waste nitrogen is drawn, which cooled after being expanded to a saturation temperature and moisture- bearing to a certain extent, is throttled into the bottom of nitrogen column for participation in rectification. The nitrogen gas and liquid nitrogen are then obtained at the top of nitrogen column while the saturated and oxygen-rich liquid air at the bottom of column is throttled into the evaporation side of condenser evaporator to condense the nitrogen gas at the top of column.

      Oxygen-rich liquid air at the evaporation side of condenser evaporator is heated and vapored to be saturated gas by nitrogen gas at the top of column, and then it is drawn out and into cold end of main heat exchanger, after being rewarmed, it is drawn out and into turbo-expander to be expanded and refrigerated.

      Expanded oxygen-rich liquid air enters main heat exchanger to be rewarmed to normal temperature and to be fed out of cold box; partial gas is to be regeneration gas for molecular sieve adsorber, the rest is blowed off.

      The nitrogen gas and liquid nitrogen are drawn out of the top of nitrogen column. The nitrogen gas flows out of cold box to the client after it is rewarmed in main heat exchanger to a normal temperature.

       In order to prevent hydrocarbon from accumulating in condenser evaporator, a small stream of liquid drawn from oxygen-rich liquid air evaporation side is discharged as waste liquid.

 

 

 

      PFD

 

 

Applications:

  • Generate Vegetable Maturity Gas
  • Sealing Gas
  • Enrichment Gas
  • Automotive, Ship, Aerospace & Aeronautics Industries
  • Pulp & Paper
  • Chemical synthesis

 

Competitive Advantage:

  • High reliability.
  • Short time delivery. Good service.
  • Low Working Pressure
  • Low-power high-efficiency

 

 

 

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