Wind‐Wave Growth with High Friction
Publication: Journal of Waterway, Port, Coastal, and Ocean Engineering
Volume 109, Issue 1
Abstract
An approximate method is presented for estimating wind-wave growth over flooded areas where there is a major effect from bottom friction because of dense vegetation. The method estimates wave growth using an adjusted fetch length which is shorter than the actual fetch length. The adjusted fetch length is determined by comparing decay factors for the case of low bottom friction and the case of high bottom friction.
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References
1.
Shore Protection Manual, U.S. Army, Corps of Engineers, Coastal Engineering Research Center, Vols. I, II, and III, GPO Stock No. 008‐022‐00113‐0, U.S. Government Printing Office, Washington, D.C. 1977.
2.
Camfield, F. E., “A Method of Estimating Wind‐Wave Growth and Decay in Shallow Water with High Values of Bottom Friction,” CETA 77‐6, U.S. Army, Corps of Engineers, Coastal Engineering Research Center, Ft. Belvoir, Va., Oct., 1977.
3.
Camfield, F. E., “Wind‐Wave Propagation Over Flooded, Vegetated Land,” TP 77‐12, U.S. Army, Corps of Engineers, Coastal Engineering Research Center, Oct., 1977.
4.
Bretschneider, C. L., “Modification of Wave Height Due to Bottom Friction, Percolation, and Refraction,” TM‐45, U.S. Army, Corps of Engineers, Beach Erosion Board, Washington, D.C., Oct., 1954.
5.
Hunt, J. N., “Direct Solution of Wave Dispersion Equation,” Journal of the Waterways, Port, Coastal, and Ocean Division, No. WW4, ASCE, Nov., 1979, pp. 457–459.
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Copyright © 1983 ASCE.
History
Published online: Feb 1, 1983
Published in print: Feb 1983
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