Reflection and Transmission of Waves over Submerged Breakwaters
Publication: Journal of Engineering Mechanics
Volume 127, Issue 2
Abstract
This work has a twofold objective. First, a new method to separate incident and reflected wave components, using measurements from one wave probe, is presented. This technique is based on local variations in amplitude and phase of the measured wave and uses wavelet analysis. Second, the method is applied to perform a parametric study to compare the reflection and transmission characteristics of flexible and rigid breakwaters. Results are discussed for different depths of submergence of the models, different internal pressures in the case of the flexible breakwater, and a wide range of wave steepnesses. The results show that, in general, the rigid model has a higher reflection coefficient than the flexible model. On the other hand, the flexible model has a much higher energy-loss coefficient. Optimal breakwater widths for reflection, transmission, and energy-loss coefficients for waves with different wavelengths are also presented.
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References
1.
Dean, R. G., and Dalrymple, R. A. ( 1991). Water wave mechanics for engineers and scientists, World Scientific, River Edge, N.J.
2.
Frederiksen, H. D. (1971). “Wave attenuation by fluid-filled bags.”J. Wtrwy., Harb. and Coast. Engrg. Div., ASCE, 97(1), 73–90.
3.
Goda, Y., and Suzuki, Y. ( 1976). “Estimation of incident and reflected waves in random wave experiment.” Proc., Conf. Coast. Engrg., ASCE, Vol. 1, 828–845.
4.
Isaacson, M. (1991). “Measurement of regular wave reflection.”J. Wtrwy., Port, Coast., and Oc. Engrg., ASCE, 117(6), 553–569.
5.
Kaiser, G. ( 1994). A friendly guide to wavelets, Birkhäuser, Boston.
6.
Mansard, E. P. D., and Funke, E. R. ( 1980). “The measurement of incident and reflected spectra using a least squares method.” Proc., 17th Coast. Engrg. Conf., ASCE, Vol. 1, 154–172.
7.
Ohyama, T., Tanaka, M., Kiyokawa, T., Uda, T., and Murai, Y. ( 1989). “Transmission and reflection characteristics of waves over a submerged flexible mound.” Coast. Engrg. in Japan, Tokyo, 32, 53–68.
8.
Phadke, A. C., and Cheung, K. F. (1999). “Response of bottom-mounted fluid-filled membrane in gravity waves.”J. Wtrwy., Port, Coast., and Oc. Engrg., ASCE, 125(6), 294–303.
9.
Stamos, D. G., Lusk, C. P., Hajj, M. R., and Telionis, D. P. ( 1999). “Wavelet analysis of reflection and transmission characteristics of submerged flexible breakwaters.” Proc., ASME Summer Meeting, FEDSM99-7163.
10.
Teolis, A. ( 1997). “Identification of noisy FM signals using non-orthogonal wavelet transforms.” SPIE, 3078, 590–601.
11.
Thornton, E. B., and Calhoun, R. J. (1972). “Spectral resolution of breakwater reflected waves.”J. Wtrwy., Harb. and Coast. Engrg. Div., ASCE, 98(4), 443–460.
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Received: Feb 15, 2000
Published online: Feb 1, 2001
Published in print: Feb 2001
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