|
|
|
| Capacity |
10,000 NM3 / hr |
| Purity |
90-99.9995% |
| Dew point |
(-) 40 C - (-) 80C |
|
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|
|
The membrane modules are composed of millions of
polymeric are composed of millions of polymeric hollow fibres, each
about the diameter of a human hair. These fibres separate the components
of the air (approximately 79% nitrogen and 21% oxygen) using the
different permeation rates of these components. It is these varying
rates of permeation that allow our membranes to "filter"
oxygen and water vapor from a stream of compressed air to produce
dry nitrogen. The product nitrogen exits the end of each module
for delivery to your specific process while oxygen-rich air can
be available for use in other processes. Since the nitrogen membrane
modules have no mving parts, they achieve highly reliable, continuous
flows, dependent only on a supply of compressed air.
|
 |
 |
|
| Industry |
Nitrogen
Application |
| Chemical |
Inerting
Drying
Tank and tanker blanketing
Reaction injection molding (RIM)
Pressure transfer
Purging
Pipeline pigging
Catalyst regeneration
Sparging
|
| Food/Beverage |
Controlled atmosphere storage
Packaging
Wine/Fruit Juice/Beer
Dispending
Deinfestation
Purging
Pressure transfer
|
| Electronics |
Dry box storage
Burn-in ovens
Reflow ovens
|
| Oil & Gas |
Drilling and wellsite operations
Offshore platform utility
Natural gas processing
Enhanced oil recovery
Pipeline purging
Tank and tanker blanketing
|
| Metals |
Aluminum extrusion
Annealing
Carburizing
|
| Pharamaceuticals |
Sparging
Packaging
Blanketing
|
| Marine/Offshore |
Chemical storage
Tanker blanketing/purging
Instrument air (offshore
platforms)
Pressure transfer
|
|
|
| Advantages
of Membrane Based Nitrogen Gas Generation Plant |
|
- Compact in design
- Nitrogen production at constant
pressure
- No moving parts
- Maintenance free
- Unmanned operation
- Consistent Purity
- Nitrogen output at higher pressure
- Smaller storage volume
- Availability of O2 enriched air
- Dehumidifier not necessary
- Non cyclic Process
- Flexibility of Flow & Purity
- Expandability of the System
- Temperature Sensitivity
- High - Turndown Ratio
- Low Noise Level
- No civil foundation
- High Reliability
|
|
|
|
Membrane systems
also produce a continuous supply of oxygenrich permeate that is
useful in numberous oxygen-enrichment processes. Product streams
containing 35-55% oxygen can be generated in a single stage systems.
Higher levels of enrichment are also possible with specialized
systems that can generate oxygen streams up to 90%. These systems
are an excellent alyternative for many industrial applications
now served by liquid oxygen.
As with nitrogen
systems, all that is needed is a source of dry co,pressed air
to generate the oxygen stream of nitrogen ideal for other applications
you might have in your facility, such as inerting. When both oxygen
and nitrogen are used at your site, the membrane system is the
most economical source of supply of industrial gases in the world.
Common applications for the Membrane oxygen systems include:
|
 |
- Wastewater treatment
- Chemical reactions
- Combustion Enhancement
- Fish framing
- Ozone generation
- Biological cultures
- Temporary and interim supplies
of oxygen
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