Gas boosters are specialized devices designed to increase the pressure of gases such as nitrogen, air, CO₂, or hydrogen. They play a critical role in applications where the existing gas supply cannot deliver sufficient pressure for testing, charging, or process operations.
Gas boosters use a pressure-driven mechanism—usually pneumatic—to compress gas from a low-pressure source to a higher, usable pressure. They operate without electricity, offering safe and reliable performance even in hazardous environments.
High-Pressure Output: Easily achieve pressures far beyond cylinder or line pressure.
Safe Operation: Air-driven boosters reduce the risk of ignition, ideal for flammable gases.
Cost-Effective: No need for high-pressure cylinders; boost existing supply instead.
Flexible Use: Suitable for mobile, on-site, or laboratory applications.
Gas boosters are widely used in:
Hydrostatic and leak testing
Gas cylinder charging and refilling
Pressure calibration
Aerospace & defense systems
Hydrogen energy and fuel cell systems
Single-Stage Boosters: For moderate pressure increases.
Two-Stage Boosters: For very high pressure and stable output.
Double-Acting Boosters: For higher flow and efficiency.
Gas boosters offer accurate pressure control, reliable output, and low operational cost. This makes them an essential tool in manufacturing, testing labs, energy systems, and industrial production lines.
When selecting a gas booster, consider:
Required gas type
Maximum outlet pressure
Flow rate demands
Safety requirements
Application-specific conditions
A well-chosen booster ensures stable performance, reduces downtime, and increases operational efficiency.
Gas boosters help industries achieve safe, efficient, and high-pressure gas handling without investing in expensive high-pressure supply systems. Whether for testing, charging, or energy applications, they deliver dependable pressure boosting for a wide range of gases.