Membrane Nitrogen Generator Systems Solutions
Ingersoll Rand's nitrogen membrane generators offer on-site nitrogen production using advanced membrane technology. This technology removes unwanted gases, such as oxygen and water vapor, through the hollow fiber wall. They retain nitrogen while releasing unwanted gases into the atmosphere. These generators are reliable, compact, and low maintenance, making them a great choice for businesses needing nitrogen. The membrane generator’s long lifespan offers a great return on investment.
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Benefits
Nitrogen Generation Process
Hollow polymer fiber membranes can filter high-quality compressed air. This process separates the air into nitrogen and other gases, such as water vapor, carbon dioxide, and oxygen. To ensure efficient membrane operation, the intake air must be clean, dry, and at a temperature of 5°C or lower. Filters, dryers, and temperature control systems are essential to prevent clogging and maintain membrane performance.
No buffer tank required
Removing bulky buffer tanks can significantly reduce costs and space for businesses. This is especially beneficial in crowded urban areas. Additionally, by minimizing the risk of leaks, spills, and contamination it improves safety.
Rapid start-up time
Our membrane nitrogen generator’s rapid response systems (in seconds) are vital in emergencies. They quickly activate, minimizing downtime and maximizing productivity. This is especially important during disasters like fires or floods. A pump system that starts quickly can help prevent more damage and expedite the recovery process.
Low weight & Low Noise Operation
Its lightweight design offers convenient transportation and setup, perfect for temporary jobs like construction sites and events. Additionally, reduced weight minimizes strain on supporting structures, potentially lowering construction costs, especially in older buildings or areas with limited structural capacity. This pump system is quiet and reduces noise pollution. Its advanced design keeps vibrations and sound levels low, making it ideal for places where noise is a problem.
Minimal maintenance
Engineers designed this pump system for reliability and longevity. It requires minimal maintenance, which helps reduce downtime and operational costs. With its extended lifespan, it offers a long-term return on investment!
Industries & Applications
Oil & Gas: Include preventing fires and explosions, managing piping and pipeline systems, maintaining tanks and keeping them clear, purging control panels, inerting flare gases, providing dry gas sealing, and blanketing tanks.
Power Generation: Cover sealing dry gas compressors and gas turbines, inerting heat recovery steam generators, protecting against corrosion on inner walls of wetted parts, condensers, and boiler tubes, and purging natural gas and ammonia systems.
Chemical & Petrochemical: Involve fire prevention and explosion prevention, as well as blanketing oxygen-sensitive chemicals, purging pipelines, transferring liquids under pressure, conducting pressure testing, and facilitating pneumatic transport.
Mining: Mining applications involve extinguishing coal mine fires, inerting sulfuric acid plants for heap leaching, inerting abandoned mine areas, and purging LPG lines in copper, nickel, and uranium mines.
Technical Data
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Technical Data | |
|
Flow |
3000 Nm3/hr |
|
Purity |
99% |
Design
ASME / PED
Downloads
Related Products
Nitrogen Generation Process
Hollow polymer fiber membranes can filter high-quality compressed air. This process separates the air into nitrogen and other gases, such as water vapor, carbon dioxide, and oxygen. To ensure efficient membrane operation, the intake air must be clean, dry, and at a temperature of 5°C or lower. Filters, dryers, and temperature control systems are essential to prevent clogging and maintain membrane performance.
No buffer tank required
Removing bulky buffer tanks can significantly reduce costs and space for businesses. This is especially beneficial in crowded urban areas. Additionally, by minimizing the risk of leaks, spills, and contamination it improves safety.
Rapid start-up time
Our membrane nitrogen generator’s rapid response systems (in seconds) are vital in emergencies. They quickly activate, minimizing downtime and maximizing productivity. This is especially important during disasters like fires or floods. A pump system that starts quickly can help prevent more damage and expedite the recovery process.
Low weight & Low Noise Operation
Its lightweight design offers convenient transportation and setup, perfect for temporary jobs like construction sites and events. Additionally, reduced weight minimizes strain on supporting structures, potentially lowering construction costs, especially in older buildings or areas with limited structural capacity. This pump system is quiet and reduces noise pollution. Its advanced design keeps vibrations and sound levels low, making it ideal for places where noise is a problem.
Minimal maintenance
Engineers designed this pump system for reliability and longevity. It requires minimal maintenance, which helps reduce downtime and operational costs. With its extended lifespan, it offers a long-term return on investment!
Oil & Gas: Include preventing fires and explosions, managing piping and pipeline systems, maintaining tanks and keeping them clear, purging control panels, inerting flare gases, providing dry gas sealing, and blanketing tanks.
Power Generation: Cover sealing dry gas compressors and gas turbines, inerting heat recovery steam generators, protecting against corrosion on inner walls of wetted parts, condensers, and boiler tubes, and purging natural gas and ammonia systems.
Chemical & Petrochemical: Involve fire prevention and explosion prevention, as well as blanketing oxygen-sensitive chemicals, purging pipelines, transferring liquids under pressure, conducting pressure testing, and facilitating pneumatic transport.
Mining: Mining applications involve extinguishing coal mine fires, inerting sulfuric acid plants for heap leaching, inerting abandoned mine areas, and purging LPG lines in copper, nickel, and uranium mines.
|
Technical Data | |
|
Flow |
3000 Nm3/hr |
|
Purity |
99% |
ASME / PED