Scholarly
    Communications Project


Document Type:Master's Thesis
Name:Juan Fernando Betts
Email address:jbetts@vt.edu
URN:1998/00587
Title:Finite Element Study of Plane Wave Acoustic Phenomena in Ducts
Degree:Master of Science
Department:Mechanical Engineering
Committee Chair: C.E. Knight
Chair's email:cknight@vt.edu
Committee Members:R. Burdisso
R. West
Keywords:Finite Elements, Acoustics, Waves, Ducts
Date of defense:April 29, 1998
Availability:Release the entire work immediately worldwide.

Abstract:

This thesis studied the finite element modeling of plane wave acoustic phenomena in ducts. The study looked into finite element factors such as shape functions, mesh refinement, and element distortion. The study concluded that the higher order shape function eight-node quadrilateral element gave considerably better results than lower order shape function four-node quadrilateral element. The eight-node element converged much faster to the analytical solution than the four-node element. The average error, taking all the cases in consideration, for the four-node element was around 30 % for a mesh refinement of about 14 elements per wavelength at 100 Hz frequency. The eight-node element in the other hand had average absolute errors of less than 1% under the same conditions. This section also found that the eight-node element was substantially more resistant to solution deterioration due to element distortion than the four-node element. For example distorting the four-node element up to 60* degrees usually increased errors very rapidly to above 100 % errors. The eight-node element on the other hand usually produced errors of less than 5 % for the same level of distortion. The study showed that the type of boundary condition used had a significant effect on the solution accuracy. The study demonstrated that the effect of the natural boundary conditions was more global. Meeting this kind of boundary condition through mesh convergence produced accurate results throughout the duct.

List of Attached Files

etd.pdf


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