How microfluidic chips enable precise and accurate control of gas and liquid flows in parallel reactors

Microfluidic Splitter Chip

The microfluidic splitter chip is a single microfluidic chip that can distribute gas and liquid flows to 16 channels, with a channel-to-channel flow variability of less than 0.5% RSD (relative standard deviation). The chip is made of glass and can operate at high pressures (up to 400 barg). The chip can handle a wide range of flow rates.

The glass chip works by splitting the incoming flow into equal parts. The splitting process is based on the principle of laminar flow, which means that the fluid flows in parallel layers, without mixing or turbulence. This ensures that the flow rate and pressure are uniform across all channels, and that the distribution is independent of the fluid properties, such as viscosity and density.

Benefits

Microfluidic chips offer several advantages for high-throughput catalysis, such as:

• Increased flexibility and scalability: compact and modular design, allowing easy exchange of glass chips adapted to different flow regimes and viscosities.
• High reproducibility and reliability, as the flow distribution is precise and accurate, ensuring consistent results across all channels.
• Improved efficiency and productivity, as more tests can be performed, with less time and resources required.