| Quantity: | |
|---|---|
A 5bar inlet to 30bar outlet nitrogen booster is a high-pressure gas booster system designed to take low-pressure nitrogen (at 5 bar / 72.5 psi) and compress it to a higher pressure (30 bar / 435 psi) for various industrial applications.
Product Advantages
Efficient Boosting: Specifically designed to intake nitrogen at 5 bar and reliably discharge at 30 bar, maximizing gas utilization.
Energy Saving: Utilizes existing plant compressed air or integrated hydraulic system as driving force, significantly reducing electricity costs compared to high-stage electric compressors.
Compact & Safe: Eliminates the need for handling high-pressure gas cylinders; boosts nitrogen on-demand directly from a liquid tank or low-pressure line, enhancing workplace safety.
Stable Piston Design: Employs differential piston principle for automatic stall at required pressure, ensuring precise output and minimal maintenance.
Wide Application: Ideal for laser cutting, gas assisted injection molding, electronic manufacturing, and pressure testing where stable 30bar nitrogen is required.
Technical Parameters
| Model | Capacity (m3/h) | Inlet P (Barg) | Outlet P (Barg) | Motor Power (Kw) | Compression | Dimension L*W*H(mm) | Inlet Size | Outlet Size | Weight (kg) |
| RVWN-20/5-30 | 20 | 5 | 30 | 3 | 2 | 1250x500x900 | RC1/2" | RC1/2" | 210 |
| RVWN-30/5-30 | 30 | 5 | 30 | 5.5 | 2 | 1250x600x900 | RC1" | RC1" | 250 |
| RVWN-40/5-30 | 40 | 5 | 30 | 5.5 | 2 | 1250x600x900 | RC1" | RC1" | 250 |
| RVWN-50/5-30 | 50 | 5 | 30 | 7.5 | 2 | 1250x600x900 | RC1" | RC1" | 270 |
| RVWN-60/5-30 | 60 | 5 | 30 | 7.5 | 2 | 1250x600x900 | RC1" | RC1" | 270 |
| RVWN-70/5-30 | 70 | 5 | 30 | 11 | 2 | 1250x700x900 | RC1" | RC1" | 300 |
Industry application
Industrial: Laser cutting, metal heat treatment shielding gas
⚡ Energy: Transformer nitrogen sealing, energy storage systems
Scientific research: Chromatography carrier gas, materials testing
️ Petrochemical: Pipeline pressure testing, reactor protection
Aerospace: Fuel system testing
Nitrogen booster FAQ
1. How does the nitrogen booster achieve 30bar output from only 5bar inlet?
The booster uses a differential piston principle. The large-area piston is driven by compressed air force
the smaller-area piston to compress the nitrogen, thereby multiplying the inlet pressure up to 30bar
without requiring electricity.
2. What air source is needed to drive this booster?
Typically, it requires a clean, dry compressed air supply between 4 to 7bar. The unit uses this compressed
air as the power source to drive the piston, making it ideal for workshops with existing air compressors.
3. Will the booster run continuously once turned on?
No. The booster is designed to stall automatically once the outlet pressure reaches the set 30bar. It
will only restart when the system pressure drops, which significantly saves energy and reduces wear.
4. What maintenance does the nitrogen booster require?
Maintenance is minimal. Regularly check and clean the inlet air filter, ensure the driving air is dry, and
inspect the piston seals periodically (every 3-6 months depending on usage) to maintain efficient compression.
A 5bar inlet to 30bar outlet nitrogen booster is a high-pressure gas booster system designed to take low-pressure nitrogen (at 5 bar / 72.5 psi) and compress it to a higher pressure (30 bar / 435 psi) for various industrial applications.
Product Advantages
Efficient Boosting: Specifically designed to intake nitrogen at 5 bar and reliably discharge at 30 bar, maximizing gas utilization.
Energy Saving: Utilizes existing plant compressed air or integrated hydraulic system as driving force, significantly reducing electricity costs compared to high-stage electric compressors.
Compact & Safe: Eliminates the need for handling high-pressure gas cylinders; boosts nitrogen on-demand directly from a liquid tank or low-pressure line, enhancing workplace safety.
Stable Piston Design: Employs differential piston principle for automatic stall at required pressure, ensuring precise output and minimal maintenance.
Wide Application: Ideal for laser cutting, gas assisted injection molding, electronic manufacturing, and pressure testing where stable 30bar nitrogen is required.
Technical Parameters
| Model | Capacity (m3/h) | Inlet P (Barg) | Outlet P (Barg) | Motor Power (Kw) | Compression | Dimension L*W*H(mm) | Inlet Size | Outlet Size | Weight (kg) |
| RVWN-20/5-30 | 20 | 5 | 30 | 3 | 2 | 1250x500x900 | RC1/2" | RC1/2" | 210 |
| RVWN-30/5-30 | 30 | 5 | 30 | 5.5 | 2 | 1250x600x900 | RC1" | RC1" | 250 |
| RVWN-40/5-30 | 40 | 5 | 30 | 5.5 | 2 | 1250x600x900 | RC1" | RC1" | 250 |
| RVWN-50/5-30 | 50 | 5 | 30 | 7.5 | 2 | 1250x600x900 | RC1" | RC1" | 270 |
| RVWN-60/5-30 | 60 | 5 | 30 | 7.5 | 2 | 1250x600x900 | RC1" | RC1" | 270 |
| RVWN-70/5-30 | 70 | 5 | 30 | 11 | 2 | 1250x700x900 | RC1" | RC1" | 300 |
Industry application
Industrial: Laser cutting, metal heat treatment shielding gas
⚡ Energy: Transformer nitrogen sealing, energy storage systems
Scientific research: Chromatography carrier gas, materials testing
️ Petrochemical: Pipeline pressure testing, reactor protection
Aerospace: Fuel system testing
Nitrogen booster FAQ
1. How does the nitrogen booster achieve 30bar output from only 5bar inlet?
The booster uses a differential piston principle. The large-area piston is driven by compressed air force
the smaller-area piston to compress the nitrogen, thereby multiplying the inlet pressure up to 30bar
without requiring electricity.
2. What air source is needed to drive this booster?
Typically, it requires a clean, dry compressed air supply between 4 to 7bar. The unit uses this compressed
air as the power source to drive the piston, making it ideal for workshops with existing air compressors.
3. Will the booster run continuously once turned on?
No. The booster is designed to stall automatically once the outlet pressure reaches the set 30bar. It
will only restart when the system pressure drops, which significantly saves energy and reduces wear.
4. What maintenance does the nitrogen booster require?
Maintenance is minimal. Regularly check and clean the inlet air filter, ensure the driving air is dry, and
inspect the piston seals periodically (every 3-6 months depending on usage) to maintain efficient compression.
