Flow characteristic of a valveless piezoelectric micropump applying Coanda effect

A valveless piezoelectric micropump based on Coanda effect was presented. The effects of the angle and the length of the diffuser as well as the Reynolds number on the performance of the micropump were studied. The numerical simulation was done to obtain the flow field as well as the flow rate and t...

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Published in2014 ISFMFE - 6th International Symposium on Fluid Machinery and Fluid Engineering p. 029
Main Authors He, Xiuhua, Zhang, Xitong, Yang, Song, Zhu, Jiawei, Yan, Jie
Format Conference Proceeding
LanguageEnglish
Published Stevenage, UK IET 2014
The Institution of Engineering & Technology
Subjects
Applied fluid mechanics
Flows in ducts, channels, and conduits
Fluid mechanics and aerodynamics (mechanical engineering)
General fluid dynamics theory, simulation and other computational methods
Laminar flows
Mechanical components, systems and devices
Micromechanics (mechanical engineering)
Numerical analysis
Numerical approximation and analysis
Stratified flows
flow simulation
pipe flow
stratified flow
flow numerical simulation
Reynolds number
entrainment
numerical analysis
Coanda effect
laminar flow
valveless piezoelectric micropumps
micropumps
pipes
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Summary:A valveless piezoelectric micropump based on Coanda effect was presented. The effects of the angle and the length of the diffuser as well as the Reynolds number on the performance of the micropump were studied. The numerical simulation was done to obtain the flow field as well as the flow rate and the volumetric efficiency of the micropump. The range of the diffuser angle was from 15°to 60°, and Reynolds numbers was from 200 to 800. It shows that as the diffuser angle increased, the maximum flow rate rose from 15° to 45°, and then dropped sharply after 45°. When the Reynolds number was low, the fluid was discharged through both the inlet and outlet pipes in the pumping process. With the increasing of the Reynolds numbers, more fluid was discharged through the outlet pipe than the other one. When the Reynolds number was as high as 800, the fluid in the chamber was sprayed out only through the outlet pipe and also some fluid was entrained through the inlet pipe and sprayed out through the outlet. Thus, the volumetric efficiency of the micropump could reach over 50%. The maximum net flow rate 0.767 ml/min and volumetric efficiency 50.22% are obtained at the angle 45°, length of the diffuser 362 μm and Re = 800.
ISBN:9781849199070
1849199078
DOI:10.1049/cp.2014.1157