Downloads provided by UsageCountsNarrow banded wave propagation from very deep waters to the shore
Copyright policy ) Simarro, Gonzalo; Galán, Álvaro; Minguez, Roberto; Orfila, Alejandro;
Narrow banded wave propagation from very deep waters to the shore
A fully nonlinear Boussinessq-type model with several free coefficients is considered as a departure point. The model is monolayer and low order so as to simplify numerical solvability. The coefficients of the model are here considered functions of the local water depth. In doing so, we allow to improve the dispersive and shoaling properties for narrow banded wave trains in very deep waters. In particular, for monochromatic waves the dispersion and shoaling errors are bounded by ~ 2.8% up to kh = 100, being k the wave number and h the water depth. The proposed model is fully nonlinear in weakly dispersive conditions, so that nonlinear wave decomposition in shallower waters is well reproduced. The model equations are numerically solved using a fourth order scheme and tested against analytical solutions and experimental data
Authors would like to thank support from MICINN through Project 445 CGL2011-22964. G. Simarro and R. Minguez are supported by the Spanish government through the “Ramón y Cajal” program
32 pages, 13 figures, 5 tables
Peer reviewed
Numerical schemes, Phase-resolving wave propagation models, Linear dispersion and shoaling, Boussinesq-type equations
Numerical schemes, Phase-resolving wave propagation models, Linear dispersion and shoaling, Boussinesq-type equations
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This indicator reflects the "current" impact/attention (the "hype") of an article in the research community at large, based on the underlying citation network.
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