Nitrogen Generator Delivers 99.999% Purity, Membrane And PSA - Industrial Gas Filtration & Generation Division | Parker US
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Nitrogen gas generators give users control over their gas pressure, purity, flowrate and minimize production downtime due to the permanent availability of an on-demand nitrogen supply.

Find your local specialist to learn about nitrogen gas generators.

Safe and Reliable Nitrogen Generation


Our Nitrogen Generators produce pure nitrogen onsite, eliminating the requirement for a delivered gas supply in bulk liquid nitrogen, dewars, and high-pressure compressed gas cylinders. With decades of experience developing efficient, economical nitrogen generators, we have set the benchmark for precision engineering, optimum performance, and customer satisfaction.

As an ISO 9001-certified manufacturing facility, Parker ensures quality is built into every aspect of its products, from design to delivery. 

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Range of Products

Our Nitrogen Generators produce a continuous nitrogen supply at consistent purity levels within minutes of startup. These free-standing models are available with membrane and PSA technologies for a variety of applications.

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Want to learn more about our nitrogen generators, technologies, and solutions? Download related technical literature, read market application stories, view our white papers, and watch videos in the Resource Center.

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Superior Service and Support

Get answers to the most commonly asked questions, or contact us today.

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Nitrogen Generators FAQ

Q: What does a nitrogen generator do?

  • A nitrogen generator is a device used to produce nitrogen gas from atmospheric air. It typically separates nitrogen from other components in the air, such as oxygen and trace gases, to provide a continuous supply of high-purity nitrogen. By providing an on-site source of nitrogen, generators can be more cost-effective and convenient compared to relying on bottled or bulk-delivered nitrogen.

Q: What are the different types of nitrogen generators?

There are several types of nitrogen generators, including:

  • Pressure Swing Adsorption (PSA) Nitrogen Generators: These use a process where air is passed through a bed of adsorbent material (such as carbon molecular sieves) that selectively adsorbs oxygen and allows nitrogen to pass through. The adsorbent material is periodically regenerated by reducing the pressure, which releases the adsorbed oxygen.

  • Membrane Nitrogen Generators: These use semi-permeable membranes that allow oxygen, water vapor, and other trace gases to permeate through the membrane walls more quickly than nitrogen. As a result, nitrogen is separated and collected on the other side of the membrane.

  • Cryogenic Nitrogen Generators: These involve cooling air to very low temperatures to liquefy it, and then distilling the liquid air to separate nitrogen from oxygen and other components based on their different boiling points.

Each type has its advantages and is selected based on factors such as the required purity of the nitrogen, the volume needed, and the specific application. PSA and membrane generators are popular for on-site nitrogen generation due to their cost-effectiveness and ability to provide a continuous supply of nitrogen. 

Q: When should I consider a PSA Nitrogen Generator?

Ultimately, the choice between PSA and membrane nitrogen generators depends on your specific requirements for nitrogen purity, flow rate, space, budget, and maintenance capabilities.

  • You need high-purity nitrogen (above 99.5%).
  • You have large-scale industrial applications with high flow rate demands.
  • You can accommodate a larger system and more complex maintenance.

Q: When should I consider a Membrane Nitrogen Generator?

  • You need nitrogen purity up to 99.5%.
  • You have small to medium-scale applications.
  • You prefer a compact, lower-maintenance system.
  • When energy efficiency and lower operational costs are your priorities.

Consulting with suppliers and industry experts can help you determine the best solution for your needs.

Q: What Factors Affect Nitrogen Production Capacity?

  • Purity Requirements: Higher purity nitrogen production typically reduces the overall output capacity of the generator.
  • Inlet Air Quality: The quality of the compressed air used as input can affect the efficiency and capacity of the generator.
  • System Design: The design and configuration of the generator, including the number and size of adsorption beds (in PSA systems) or membrane modules (in membrane systems), will determine the production capacity.
  • Operating Conditions: Temperature, pressure, and maintenance practices can also influence the performance and capacity of nitrogen generators.

It is important to consider the specific needs of your application when selecting a nitrogen generator. Consider your required nitrogen flow rate, purity, and any operational constraints. We provide detailed specifications and can help tailor a solution to meet your requirements.

Q: How do I choose a nitrogen generator?

There are nine key considerations to ensure the nitrogen generator you select meets your specific needs and application requirements. Here are the key factors to consider when selecting a nitrogen generator:

  1. Nitrogen Purity Requirements: Different applications require different levels of nitrogen purity. For example, food packaging might need 99.5% purity, while electronics manufacturing might require 99.999% purity.
  2. Nitrogen Flow Rate: Determine the volume of nitrogen your application requires, typically measured in cubic feet per hour (CFH) or liters per minute (LPM). Consider both the average and peak demand to ensure the generator can handle fluctuations in usage.
  3. Operating Costs: Compare the upfront costs of different nitrogen generator systems. Evaluate the energy efficiency of the generator, as this will affect long-term operating costs. Finally, consider the maintenance requirements and costs for each type of generator.
  4. Space and Installation: Assess the physical space available for the generator. PSA systems tend to be larger than membrane systems. Check if there are any special installation needs, such as ventilation, temperature control, or proximity to other equipment.
  5. Reliability and Maintenance: Look for systems known for their reliability and longevity. Understand the maintenance schedule and whether it aligns with your operational capabilities. PSA systems might require periodic replacement of adsorbent materials, while membrane systems might need membrane replacements.
  6. Supplier Support and Service: Choose a reputable supplier with good customer reviews. Consider the availability of technical support, warranty options, and service agreements.
  7. Scalability: Consider whether the system can be easily scaled up if you think your nitrogen requirements could increase in the future.
  8. Regulatory Compliance: Ensure the generator complies with relevant industry standards and regulations, especially in sectors like pharmaceuticals and food and beverage.
  9. Environmental Impact: Evaluate the environmental impact of the generator, including energy efficiency and any waste products.

By carefully considering these factors and conducting thorough research, you can choose a nitrogen generator that best fits your operational needs and budget.