Nitrogen gas generator
Maximus Lite
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The nitrogen generators serie Maximus Lite offer to you a unique, innovative solution to nitrogen gas supply. A reliable, secure source of nitrogen can be produced from your existing compressed air supply, eliminating the need for liquid nitrogen or high pressure gas cylinders.
Conceived for a continuous operation, the MAXIMUS LITE nitrogen generator can produce flow rates from a few
liters per minutes to over NL/min at purities in oxygen content residual from 10 ppm to 3%.
The generator is controlled using the latest in HMI touch screen technology to display the process, pressures, inlet air dewpoint and oxygen levels with continuous monitoring complete with alarms.
Maximus Lite
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See other nitrogen gas generators
Applications: food packaging, laser cutting, wine making
and brewing, oil and gas, pharmaceutical and laboratory,
electronic assembly/soldering, injection moulding.
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Benefits
Economy saving
Quick return on investment < 1 year.
After installation, the generator require minimal attention and maintenance.
Reliability and safety of use
Nitrogen produced at low pressure and ambient temperature removes the hazards associated with high pressure cylinders and liquid Dewar’s.
Nitrogen available on request 24H per day ensuring the walk of the process in a regular and uninterrupted way.
Compact design and flexible modular option
The system requires less floor space.
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Specifications
- Varying fl ow rates and purities
- High purity system with built in receiver
- HMI touch screen
- O2 display and alarm
- Air inlet dewpoint display and alarm
- Maintenance indication
- Visual and audible alarm
- Analogue connections
- IP address for remote access via internet connection
- Quick and easy maintenance:
- Access from front, no rear access required
- Automatic economy mode
- Option: Hazardous area version
- Ethernet output via RJ45 connection
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Operating mode
The nitrogen generator operate on the Pressure Swing Adsorption (PSA).
This technique uses pairs of extruded aluminium columns, fi lled with carbon molecular sieve (CMS).Pre-treated compressed air enters the bottom of the one line bed and fl ows up through the CMS. Oxygen and other trace gases are preferentially adsorbed by the CMS, allowing nitrogen to pass through. After a pre-set time when the on-line bed is almost saturated with adsorbed gases, the system automatically switches the bed to regenerative mode, venting the contaminants from the CMS.
The second CMS bed then comes on-line and takes over the separation process.
