Title :
Flow patterns and transport in Rayleigh surface acoustic wave streaming: combined finite element method and raytracing numerics versus experiments
Author :
Frommelt, Thomas ; Gogel, Daniel ; Kostur, Marcin ; Talkner, Peter ; Hänggi, Peter ; Wixforth, Achim
Author_Institution :
Inst. fur Phys., Univ. Augsburg, Augsburg
fDate :
10/1/2008 12:00:00 AM
Abstract :
This work presents an approach for determining the streaming patterns that are generated by Rayleigh surface acoustic waves in arbitrary 3-D geometries by finite element method (FEM) simulations. An efficient raytracing algorithm is applied on the acoustic subproblem to avoid the unbearable memory demands and computational time of a conventional FEM acoustics simulation in 3-D. The acoustic streaming interaction is modeled by a body force term in the Stokes equation. In comparisons between experiments and simulated flow patterns, we demonstrate the quality of the proposed technique.
Keywords :
acoustic streaming; finite element analysis; microfluidics; surface acoustic waves; FEM acoustics simulation; Rayleigh surface acoustic wave streaming; Stokes equation; acoustic subproblem; arbitrary 3D geometries; finite element method; flow transport; ray tracing numerics; simulated flow patterns; Acoustic propagation; Acoustic waves; Attenuation; Crystals; Finite element methods; Government; Physics; Polarization; Sawing machines; Surface acoustic waves; Acoustics; Algorithms; Computer Simulation; Finite Element Analysis; Microfluidics; Models, Theoretical; Sound Spectrography; Surface Properties;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
