MICROFLUIDIC DEVICES FOR GAS FLOW CONTROL |
|---|
| Eliphas Wagner Simões, Rogério Furlan, Dong Ho Choi |
- Abstract:
- This paper is focused on the study of microfluidic devices implemented in silicon. Microactuators with no moving parts, microfluidic amplifiers, were integrated with microchannels. The operation of the obtained devices was analyzed in terms of gas flow control and division. Considering flow control, the devices presented proportional and symmetrical behavior with high proportional flow gains (output flow/control flow), similar to fluidic amplifiers with supply hydraulic diameters higher than hundreds of microns. For operation with flow division, a transition to a linear behavior between the supply flow and supply pressure is observed and the devices presented symmetrical output characteristics. Also, in this case, at moderate supply pressures, the results of numerical simulation indicate the possibility of internal choked flow, at the output of the supply nozzle, and supersonic regime in the interaction region.
- Keywords:
- microfluidic amplifiers, microflow, flow control
- Download:
- IMEKO-TC9-2000-096.pdf
- DOI:
- -
- Event details
- IMEKO TC:
- TC9
- Event name:
- FLOMEKO 2000
- Title:
- 10th Conference on Flow Measurement
- Place:
- Salvador, Bahia, BRAZIL
- Time:
- 04 June 2000 - 08 June 2000