Axisymmetric analysis of a tube-type acoustic levitator by a finite element method

Author

Hatano, Hajime

Author_Institution

Dept. of Appl. Electron., Sci. Univ. of Tokyo, Japan

Volume

41

Issue

5

fYear

1994

Firstpage

772

Lastpage

777

Abstract

A finite element approach was taken for the study of the sound field and positioning force in a tube-type acoustic levitator. An axisymmetric model, where a rigid sphere is suspended on the tube axis, was introduced to model a cylindrical chamber of a levitation tube furnace. Distributions of velocity potential, magnitudes of positioning force, and resonance frequency shifts of the chamber due to the presence of the sphere were numerically estimated in relation to the sphere´s position and diameter. Experiments were additionally made to compare with the simulation. The finite element method proved to be a useful tool for analyzing and designing the tube-type levitator.<>

Keywords

acoustic field; aerospace simulation; finite element analysis; materials handling; materials preparation; position control; radiation pressure; ultrasonic applications; axisymmetric analysis; axisymmetric mode; cylindrical chamber; finite element method; levitation tube furnace; positioning force; resonance frequency shifts; rigid sphere; simulation; sound field; space borne materials processing; suspended; tube axis; tube-type acoustic levitator; tube-type levitator; velocity potential; Finite element methods; Frequency estimation; Furnaces; Gases; Levitation; Materials processing; Resonance; Resonant frequency; Space shuttles; Space technology;

fLanguage

English

Journal_Title

Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on

Publisher

ieee

ISSN

0885-3010

Type

jour

DOI

10.1109/58.308513

Filename

308513