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Scattering by periodic array of rectangular blocks

Published online by Cambridge University Press:  26 April 2006

M. Fernyhough  and
D. V. Evans
M. Fernyhough
Affiliation:
School of Mathematics, University of Bristol, Bristol BS8 1TW, UK
D. V. Evans
Affiliation:
School of Mathematics, University of Bristol, Bristol BS8 1TW, UK
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Abstract

Scattering properties of an incident field upon a periodic array of identical rectangular barriers, each extending throughout the water depth, are calculated based on a Galerkin approximation to an integral representation of the problem derived using the linear theory of water waves. The method incorporates full multi-modal scattring using the linear theory of water waves. The method incorporates full multi-modal scattering using a matrix formulation and is equivalent to a corresponding two-dimensional acoustics problem also discussed.

Type
Research Article
Information
Journal of Fluid Mechanics , Volume 305 , 25 December 1995 , pp. 263 - 279
Copyright
© 1995 Cambridge University Press

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References

Abramowitz, M. & Stegun, I. A. 1972 Handbook of Mathematical Functions, 9th Edn. Dover.
Achenbach, J. D. & Li, Z. L. 1986 Reflection and transmission of scalar waves by a periodic array of screens. Wave Motion 8, 225234.Google Scholar
Dalrymple, R. A. & Martin, P. A. 1990 Wave diffraction through offshore breakwaters. J. Waterways, Port. Coastal Ocean Engng 116, 727741.Google Scholar
ErdÉLYI, A., Magnus, Oberhettinger, W. F. & Tricomi, F. G. 1954 Tables of Integral Transforms. Bateman manuscript project, vol. 1. McGraw-Hill.
Evans, D. V. & Fernyhough, M. 1995 Edge waves along periodic coastlines. Part 2. J. Fluid Mech. 297 307–325 (referred to herein as 1).Google Scholar
Kristiansen, U. R. & Fahy, F. J. 1972 Scattering of acoustic waves by and N-layer periodic grating. J. Sound. Vib. 24, 315335.Google Scholar
Linton, C. M. & Evans, D. V. 1993a Acoustic scattering by an array of parallel plates. Wave Motion 18, 5165.Google Scholar
Linton, C. M. & Evans, D. V. 1993b The interaction of waves with a row of circular cylinders. J. Fluid Mech. 251, 687708.Google Scholar
Mongeau, L., Amram, M. & Rousselet, J. 1986 Scattering of sound waves by a periodic array of slotted waveguides. J. Acoust. Soc. Am. 80, 665671.Google Scholar
Petit, R. 1980 Electromagnetic Theory of Gratings. Topics in Current Physics Springer.
Porter, R. & Evans, D. V. 1995 Wave scattering by periodic arrays of breakwaters. Wave Motion (to appear)
Wilcox, C. H. 1984 Scattering Theory for Diffraction Gratings Springer.
Williams, A. N. & Crull, W. W. 1993 Wave diffraction by thin screen breakwaters. J. Waterway, Port. Coastal Ocean Engng 119, 606617.Google Scholar