Development of a solenoid actuated planar valveless micropump with single and multiple inlet–outlet arrangements

Abstract: We report a planar solenoid actuated valveless micropump with multiple inlet–outlet configurations. The self-priming characteristics of the multiple inlet–multiple outlet micropump are studied. The filling dynamics of the micropump chamber during start-up and the effects of fluid viscosity, voltage and frequency on the dynamics are investigated. Numerical simulations for multiple inlet–multiple outlet micropumps are carried out using fluid structure algorithm. With DI water and at 5.0 Vp-p, 20 Hz frequency, th… Show more

“…Allocating durations in different strokes improve the working efficiency and reduces the energy loss. Our work reports a natural time apportionment mechanism in biological systems, which may inspire the invention of next-generation viscousfluidic devices such as micropumps that have a plunger equipped with dynamic surfaces [26,27].…”

How to dip nectar: optimal time apportionment in natural viscous fluid transport

“…Allocating durations in different strokes improve the working efficiency and reduces the energy loss. Our work reports a natural time apportionment mechanism in biological systems, which may inspire the invention of next-generation viscousfluidic devices such as micropumps that have a plunger equipped with dynamic surfaces [26,27].…”

How to dip nectar: optimal time apportionment in natural viscous fluid transport

Design and Flow Analysis of MEMS based Piezo-electric Micro Pump

Design optimization of an electromagnetic actuation based valveless micropump for drug delivery application