Request Quote
Scan the QR code below to connect with us on WhatsApp.
Request Quote
Scan the QR code below to connect with us on WhatsApp.
Mini Gas Pump Flow Stabilizer LE-GFS101 is a passive fluid component designed with 3 connector types for improved gas flow stability. It features a small hole and expansion design to convert unstable airflow into a smooth, consistent flow. Equipped with diaphragm or piston pumps to minimize flow disturbance. Built to support accurate sampling and analysis in flow-based research. Our Flow Stabilizer is ideal for airflow sampling, gas composition analysis, and flow measurement in scientific and industrial applications.
$1,752.00 $ 1460
Specifications
| Output Flow Range(L) | 0-4 |
| With stand Max. Pressure(kPa) | 200 kPa |
| Interface Type | Rc1/8 internal thread |
| Connector Compatibility | 3 connector types |
| Standard Straight Connector | 6×8 mm silicone hose |
| Large Straight Connector | 8×10 mm silicone hose |
| Elbow Connector | 6×8 mm silicone hose |
| Applicable Connecting Pipe | 6mm/8mm Inner diameter, Silicone tube |
| Media Contact Material | Nitrilerubber,304SS, Enhanced Nylon |
| Function | Used in conjunction with a micropump to reduce gas pulsation and negative impact on sensors. |
| Weight | 0.50 Kg |
Features
Applications
Function Implementation Gas sampling labs 0-4 L output flow range supports precise airflow control Flow measurement systems 200 kPa max pressure tolerance enables stable flow conditions Airflow analysis equipment 3 connector types facilitate versatile gas flow management Research laboratories 6×8 mm silicone hose compatibility ensures smooth flow conversion Industrial process control 0.50 Kg weight and compact design allow for easy integration
Lab Expo Mini Gas Pump Stabilizer supports precision gas handling where pulse-free, steady airflow is required for accurate analytical measurement. The unit operates with an internal expansion chamber to smooth pulsation from diaphragm and piston pumps and maintain consistent flow output. Compact build enables integration into space-limited systems, while controlled stabilization improves signal consistency and repeatable performance for continuous microfluidic and gas analysis workflows.
