Walter Eversman scite author profile

Walter Eversman

4Publications

270Citation Statements Received

24Citation Statements Given

How they've been cited

322

257

How they cite others

Affiliations

Missouri University of Science and Technology, Wichita State University, University of Canterbury

Publications

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Transmission of Sound in Ducts with Thin Shear Layers—Convergence to the Uniform Flow Case

Eversman

Beckemeyer

1972

111

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The problem of the transmission of sound in a duct with very thin shear layers at the walls is treated by an inner expansion method. The results show that the formulation of the problem of the transmission of sound in a duct with a shear layer at the wall converges, in the case of a vanishingly thin shear layer, to the formulation of the same problem when uniform flow is assumed and the wall boundary condition is that of continuity of particle displacement.

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A numerical comparison between the multiple-scales and finite-element solution for sound propagation in lined flow ducts

Rienstra

Eversman

2001

J. Fluid Mech.

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An explicit, analytical, multiple-scales solution for modal sound transmission through slowly varying ducts with mean flow and acoustic lining is tested against a numerical finite-element solution solving the same potential flow equations. The test geometry taken is representative of a high-bypass turbofan aircraft engine, with typical Mach numbers of 0.5-0.7, circumferential mode numbers m of 10-40, dimensionless wavenumbers of 10-50, and both hard and acoustically treated inlet walls of impedance Z = 2 − i. Of special interest is the presence of the spinner, which incorporates a geometrical complexity which could previously only be handled by fully numerical solutions. The results for predicted power attenuation loss show in general a very good agreement. The results for iso-pressure contour plots compare quite well in the cases where scattering into many higher radial modes can occur easily (high frequency, low angular mode), and again a very good agreement in the other cases.

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The Boundary Condition at an Impedance Wall in a Non-Uniform Duct With Potential Mean Flow

Eversman

2001

Journal of Sound and Vibration

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A finite element formulation of the eigenvalue problem in lined ducts with flow

Astley

Eversman

1979

Journal of Sound and Vibration

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Walter Eversman

Transmission of Sound in Ducts with Thin Shear Layers—Convergence to the Uniform Flow Case

A numerical comparison between the multiple-scales and finite-element solution for sound propagation in lined flow ducts

The Boundary Condition at an Impedance Wall in a Non-Uniform Duct With Potential Mean Flow

A finite element formulation of the eigenvalue problem in lined ducts with flow

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