High-Pressure Microfluidic Syringe Pump

Verify flow rate accuracy periodically by measuring actual delivered volume over a timed interval using a precision balance.

Why: Mechanical wear and temperature variations can affect flow accuracy over time.

Clean fluid pathways with appropriate solvents after each use and store with the syringe empty to prevent contamination.

Why: Residual fluids can crystalize or react, leading to blockages or contamination in subsequent experiments.

Prime the system at 10-20% of target flow rate to eliminate air bubbles before starting precision delivery protocols.

Why: Air bubbles cause flow irregularities and can compress under high pressure, affecting delivery accuracy.

If flow becomes irregular, check for loose tubing connections and verify the syringe is properly seated in the holder.

Why: Mechanical looseness introduces compliance in the system that degrades volumetric accuracy.

Allow the pump to reach steady-state flow before beginning measurements, especially at very low flow rates.

Why: Flow stabilization time increases at lower rates due to system compliance and fluid dynamics.

When working with high-pressure applications, use proper tubing rated for the system's pressure capabilities and inspect connections regularly.

Why: High pressure can cause catastrophic failure of undersized components, leading to sample loss and safety hazards.

Match syringe size to experiment duration to minimize refilling interruptions while avoiding unnecessary dead volume.

Why: Larger syringes reduce refilling frequency but increase fluid waste and dead volume in the system.