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Nitrogen is a dry, inert gas which is used in many commercial and industrial applications to improve the quality of a product or process or as a safety measure to prevent combustion. Liquid or bottled Nitrogen delivery and storage can be expensive, unreliable and a safety concern. Nitrogen generators produce a continuous supply of high-purity Nitrogen on site using your existing compressed air system, offering a cost effective and reliable alternative to the use of cylinder or liquid Nitrogen across a wide range of applications.
Unit of Measure

Financing

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Sizing and Specifications

Inlet Air Pressure

 N/A 100 psi125 psi150 psi200 psi

Dimension A at 100 psi Inlet Air Pressure

 N/A 40 in

Dimension A at 125 psi Inlet Air Pressure

 N/A 40 in

Dimension A at 150 psi Inlet Air Pressure

 N/A 40 in

Dimension A at 200 psi Inlet Air Pressure

 N/A 40 in

Dimension B at 100 psi Inlet Air Pressure

 N/A 48 in

Dimension B at 125 psi Inlet Air Pressure

 N/A 48 in

Dimension B at 150 psi Inlet Air Pressure

 N/A 48 in

Dimension B at 200 psi Inlet Air Pressure

 N/A 48 in

Dimension C at 100 psi Inlet Air Pressure

 N/A 5.5 in

Dimension C at 125 psi Inlet Air Pressure

 N/A 5.5 in

Dimension C at 150 psi Inlet Air Pressure

 N/A 5.5 in

Dimension C at 200 psi Inlet Air Pressure

 N/A 5.5 in

Approximate Weight at 100 psi Inlet Air Pressure

 N/A 51 lb

Approximate Weight at 125 psi Inlet Air Pressure

 N/A 51 lb

Approximate Weight at 150 psi Inlet Air Pressure

 N/A 51 lb

Approximate Weight at 200 psi Inlet Air Pressure

 N/A 51 lb

Inlet and Outlet Connection Size

 N/A 1/2 in

Connection Type

 N/A National Pipe Thread (NPT)

Design Operating Pressure Range

 N/A 100 to 200 psi

Design Operating Temperature Range

 N/A 41 to 113 ºF

Pressure Drop

 N/A 7 to 10 psi

Nitrogen Purity at the Outlet (Maximum Oxygen Content)

Rated Outlet Flow at 99.9% (0.1%) Nitrogen Purity at the Outlet (Maximum Oxygen Content) and 100 psi Inlet Air Pressure

 N/A 63 scfh

Rated Outlet Flow at 99.9% (0.1%) Nitrogen Purity at the Outlet (Maximum Oxygen Content) and 125 psi Inlet Air Pressure

 N/A 87 scfh

Rated Outlet Flow at 99.9% (0.1%) Nitrogen Purity at the Outlet (Maximum Oxygen Content) and 150 psi Inlet Air Pressure

 N/A 100 scfh

Rated Outlet Flow at 99.9% (0.1%) Nitrogen Purity at the Outlet (Maximum Oxygen Content) and 200 psi Inlet Air Pressure

 N/A 145 scfh

Rated Outlet Flow at 99.5% (0.5%) Nitrogen Purity at the Outlet (Maximum Oxygen Content) and 100 psi Inlet Air Pressure

 N/A 126 scfh

Rated Outlet Flow at 99.5% (0.5%) Nitrogen Purity at the Outlet (Maximum Oxygen Content) and 125 psi Inlet Air Pressure

 N/A 174 scfh

Rated Outlet Flow at 99.5% (0.5%) Nitrogen Purity at the Outlet (Maximum Oxygen Content) and 150 psi Inlet Air Pressure

 N/A 200 scfh

Rated Outlet Flow at 99.5% (0.5%) Nitrogen Purity at the Outlet (Maximum Oxygen Content) and 200 psi Inlet Air Pressure

 N/A 290 scfh

Rated Outlet Flow at 99% (1%) Nitrogen Purity at the Outlet (Maximum Oxygen Content) and 100 psi Inlet Air Pressure

 N/A 168 scfh

Rated Outlet Flow at 99% (1%) Nitrogen Purity at the Outlet (Maximum Oxygen Content) and 125 psi Inlet Air Pressure

 N/A 232 scfh

Rated Outlet Flow at 99% (1%) Nitrogen Purity at the Outlet (Maximum Oxygen Content) and 150 psi Inlet Air Pressure

 N/A 268 scfh

Rated Outlet Flow at 99% (1%) Nitrogen Purity at the Outlet (Maximum Oxygen Content) and 200 psi Inlet Air Pressure

 N/A 388 scfh

Rated Outlet Flow at 98% (2%) Nitrogen Purity at the Outlet (Maximum Oxygen Content) and 100 psi Inlet Air Pressure

 N/A 260 scfh

Rated Outlet Flow at 98% (2%) Nitrogen Purity at the Outlet (Maximum Oxygen Content) and 125 psi Inlet Air Pressure

 N/A 352 scfh

Rated Outlet Flow at 98% (2%) Nitrogen Purity at the Outlet (Maximum Oxygen Content) and 150 psi Inlet Air Pressure

 N/A 394 scfh

Rated Outlet Flow at 98% (2%) Nitrogen Purity at the Outlet (Maximum Oxygen Content) and 200 psi Inlet Air Pressure

 N/A 586 scfh

Rated Outlet Flow at 97% (3%) Nitrogen Purity at the Outlet (Maximum Oxygen Content) and 100 psi Inlet Air Pressure

 N/A 330 scfh

Rated Outlet Flow at 97% (3%) Nitrogen Purity at the Outlet (Maximum Oxygen Content) and 125 psi Inlet Air Pressure

 N/A 452 scfh

Rated Outlet Flow at 97% (3%) Nitrogen Purity at the Outlet (Maximum Oxygen Content) and 150 psi Inlet Air Pressure

 N/A 514 scfh

Rated Outlet Flow at 97% (3%) Nitrogen Purity at the Outlet (Maximum Oxygen Content) and 200 psi Inlet Air Pressure

 N/A 776 scfh

Rated Outlet Flow at 96% (4%) Nitrogen Purity at the Outlet (Maximum Oxygen Content) and 100 psi Inlet Air Pressure

 N/A 408 scfh

Rated Outlet Flow at 96% (4%) Nitrogen Purity at the Outlet (Maximum Oxygen Content) and 125 psi Inlet Air Pressure

 N/A 556 scfh

Rated Outlet Flow at 96% (4%) Nitrogen Purity at the Outlet (Maximum Oxygen Content) and 150 psi Inlet Air Pressure

 N/A 628 scfh

Rated Outlet Flow at 96% (4%) Nitrogen Purity at the Outlet (Maximum Oxygen Content) and 200 psi Inlet Air Pressure

 N/A 918 scfh

Rated Outlet Flow at 95% (5%) Nitrogen Purity at the Outlet (Maximum Oxygen Content) and 100 psi Inlet Air Pressure

 N/A 486 scfh

Rated Outlet Flow at 95% (5%) Nitrogen Purity at the Outlet (Maximum Oxygen Content) and 125 psi Inlet Air Pressure

 N/A 656 scfh

Rated Outlet Flow at 95% (5%) Nitrogen Purity at the Outlet (Maximum Oxygen Content) and 150 psi Inlet Air Pressure

 N/A 776 scfh

Rated Outlet Flow at 95% (5%) Nitrogen Purity at the Outlet (Maximum Oxygen Content) and 200 psi Inlet Air Pressure

 N/A 1058 scfh

Inlet Air to Outlet Nitrogen Ratio

Inlet Air to Outlet Nitrogen Ratio at 99.9% Nitrogen Purity

 N/A 7.5

Inlet Air to Outlet Nitrogen Ratio at 99.5% Nitrogen Purity

 N/A 4.7

Inlet Air to Outlet Nitrogen Ratio at 99% Nitrogen Purity

 N/A 3.8

Inlet Air to Outlet Nitrogen Ratio at 98% Nitrogen Purity

 N/A 2.9

Inlet Air to Outlet Nitrogen Ratio at 97% Nitrogen Purity

 N/A 2.5

Inlet Air to Outlet Nitrogen Ratio at 96% Nitrogen Purity

 N/A 2.3

Inlet Air to Outlet Nitrogen Ratio at 95% Nitrogen Purity

 N/A 2.1

Specifications

Warranty

 N/A 1 years

Applications

N/A A few of the many industries making the switch to nano N-Series Nitrogen generators include:

  • Food (MAP)
  • Beverage (bottling)
  • Plastics (PET)
  • Pharmaceutical (product transfer)
  • Chemicals (blanketing)
  • Laser Metal Cutting (burring reduction)
  • Fire Prevention (eliminating combustion)
  • Electronics (wave soldering)

Benefits - Get More for Your Money

Guaranteed Performance

 N/A
  • Low initial cost and minimal maintenance.
  • Significant cost savings over cylinder or liquid supply.

Rapid Return on Investment

 N/A
  • Low air consumption for maximum energy efficiency.
  • Reduces your carbon footprint by eliminating gas delivery to your facility.

Environmentally Friendly

 N/A
  • Low air consumption for maximum energy efficiency.
  • Reduces your carbon footprint by eliminating gas delivery to your facility.

Safe and Reliable

 N/A
  • Wall mounting brackets are included as standard.
  • The compact and lightweight design allows installation in tight spaces.
  • The generator can be installed horizontally or vertically depending on the space available.
  • Just connect compressed air to the inlet and Nitrogen starts to flow.
  • Virtually silent operation means it can be installed in noise sensitive areas.

Easy to Install

 N/A
  • Minimal maintenance requirements.

Easy to Maintain

 N/A
  • Minimal maintenance requirements.

Fits any Application

 N/A Air from your plant compressed air system enters the system through the inlet ports (A). It then passes through a nano NWS centrifugal water separator to remove any bulk condensate (B). Collected condensate is expelled from the system using a nano NMD magnetic zero air loss drain (C). The air then passes through three nano NF filters in series: an M1 1.0 micron coalescing filter (D), an M01 0.01 micron coalescing filter (E), and an AC activated carbon filter (F). This removes remaining liquid aerosols, solid particulate and oil vapor. The air then passes through one or more membrane Nitrogen generators (G). The generator contains hundreds of thousands of hollow fibers which separate the Nitrogen from the air through a process known as selective permeation. The walls of these fibers allow Oxygen and water vapor molecules to pass through but not Nitrogen. A simple manual valve (H) controls the flow and thereby the purity of the Nitrogen. Clean, pure, dry Nitrogen then flows out of the outlet port to your downstream process.

How It Works

N/A Air from your plant compressed air system enters the system through the inlet ports (A). It then passes through a nano NWS centrifugal water separator to remove any bulk condensate (B). Collected condensate is expelled from the system using a nano NMD magnetic zero air loss drain (C). The air then passes through three nano NF filters in series: an M1 1.0 micron coalescing filter (D), an M01 0.01 micron coalescing filter (E), and an AC activated carbon filter (F). This removes remaining liquid aerosols, solid particulate and oil vapor. The air then passes through one or more membrane Nitrogen generators (G). The generator contains hundreds of thousands of hollow fibers which separate the Nitrogen from the air through a process known as selective permeation. The walls of these fibers allow Oxygen and water vapor molecules to pass through but not Nitrogen. A simple manual valve (H) controls the flow and thereby the purity of the Nitrogen. Clean, pure, dry Nitrogen then flows out of the outlet port to your downstream process.

Additional Information

N/A For Inlet Air to Outlet Nitrogen Ratio - The amount of compressed air required at the inlet as a function of the Nitrogen flow at the outlet. Values are approximate. Contact us for detailed compressed air inlet requirements.

Note

N/A For Inlet Air to Outlet Nitrogen Ratio - The amount of compressed air required at the inlet as a function of the Nitrogen flow at the outlet. Values are approximate. Contact us for detailed compressed air inlet requirements.