Title :
Numerical Study of a Piezoelectric Microvalve Using Continuum Methods
Author :
Wiederkehr, Rodrigo Sergio ; Salvadori, Maria Cecilia ; Fernandes, Fernando Massa ; Cattani, Mauro
Author_Institution :
Dept. of Phys. & Astrophys., Univ. of Louisville, Louisville, KY
Abstract :
Gas flow through a conical micronozzle integrated with a piezoelectric actuator has been numerically studied using continuum methods. Experimental data of air flow through a converging-diverging nozzle of throat diameter 245 mum with and without actuator at its outlet side were used for reference. The inlet pressure was kept constant at 266 Pa in all measurements. The actuator at the nozzle outlet was fabricated from poli(vinylidene fluoride) (PVDF), a piezoelectric polymer, and has a 3 mm x 6 mm rectangular shape. A voltage of +300 V DC was used to open the device, and -200 V to close it. The micronozzle with actuator is a microvalve, since the gas flow rate can be controlled by the actuator. We used Ansys/CFX software to solve the Navier Stokes equations for this valve system. The Mach number was obtained for both cases, micronozzle with and without actuator at the outlet.
Keywords :
Mach number; Navier-Stokes equations; computational fluid dynamics; confined flow; continuum mechanics; filled polymers; finite volume methods; mesh generation; microactuators; microfluidics; microvalves; nozzles; piezoelectric actuators; piezoelectric materials; Ansys-CFX software; Mach number; Navier Stokes equations; computational fluid dynamics; conical micronozzle; constant inlet pressure; continuum methods; converging-diverging nozzle; finite volume approximation; gas flow; gas flow rate; mesh generation; microfluidics; piezoelectric actuator; piezoelectric microvalve; piezoelectric polymer; poli(vinylidene fluoride); pressure 266 Pa; size 245 mum; voltage -200 V; voltage 300 V; Fluid flow; Fluid flow control; Microfluidics; Microvalves; Physics; Piezoelectric actuators; Polymers; Pressure measurement; Valves; Voltage;
Conference_Titel :
University/Government/Industry Micro/Nano Symposium, 2008. UGIM 2008. 17th Biennial
Conference_Location :
Louisville, KY
Print_ISBN :
978-1-4244-2484-9
Electronic_ISBN :
978-1-4244-2485-6
DOI :
10.1109/UGIM.2008.74
