Description
CE Compliant PSA Nitrogen Purifier Via Carbon Deoxo Method
Technical Data
No.
Items
Specs
Notes
1
Purity
>99.9995%
2
Pressure
≤5bar
Adjustable
3
Dew Point
≤-70degree
Even lower
4
Oxygen Content
≤3ppm
5
Capacity
5-5000 Nm3/h
6
Producing Method
Plus carbon
Via Carbon remove O2
Principle:
O2+C--CO2
Taking oxygen &carbon can make CO2 principle under the catalyzator function, offering nitrogen put
through oxygen eliminate device which full of high efficiency carbon deoxidant, eliminating oxygen etc
impurity, after absorb dryer Carbon to get high purity nitrogen. Carbon deoxidant is the key part of
Eliminating oxygen, while palladium etc noble metal is the key in catalyzator,make sure we can get
proper oxygen content at the certain temperature.
Characteristics:
1) Convenient and efficient to generate nitrogen: Advance technology, special gas flow distributor
to make the gas distribute more well distributed, high efficient use of CMS, qualified nitrogen can be
offered within 15 to 30 minutes.
2) Convenient use: The equipment structure is compact, low space coverage and no need of
construction investment, low investment, the only thing to do is to connect power to generate nitrogen.
3) More economical than other ways of nitrogen supply: PSA technology is a simple way to generate
nitrogen. It takes air as source, and the only energy consumption is only electricity consumption. So it
has the advantages of low operation cost, low energy consumption and high efficiency.
4) Electromechanical integrated design to realize automatic operation: Imported PLC control the full
automation, the flow rate, pressure and purity of nitrogen can be regulated and displayed consecutively;
No personnel is needed to be on duty.
Application:
1. Metallurgy: For anneal protection, agglomeration protection, furnace washing and blowing ,etc.
Used in fields such as metal heating treatment, powder metallurgy, magnetic material,copper process,
metallic mesh, galvanized wire, semiconductor, etc.
2. Chemical and new material industries: For chemical material gas, pipeline blowing, gas replacement,
gas protection, product transport, etc. Used in fields such as chemical ,urethane elastic fiber, rubber,
plastic, tyre, polyurethane, biological technology, intermediate, etc.
3.Electronic industry: For encapsulation, agglomeration, anneal, deoxygenation, storage of electronic
products. Used in fields such as peak welding, circumfluence welding, crystal, piezoelectricity, electronic
porcelain, electronic copper tape, battery, electronic alloy material, etc.