Inertial energy dissipation in shallow-water breaking waves

Inertial energy dissipation in shallow-water breaking waves

We present direct numerical simulations of breaking solitary waves in shallow water to quantify the energy dissipation during the active breaking time. We find that this dissipation can be predicted by an inertial model based on Taylor’s hypothesis as a function of the local wave height, depth and t...

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Veröffentlicht in:Journal of fluid mechanics 2020-05, Vol.890, Article A12
Hauptverfasser: Mostert, W., Deike, L.
Format: Artikel
Sprache:eng
Schlagworte:
Beach slope
Breaking waves
Computer simulation
Dimensional analysis
Energy dissipation
Energy exchange
Initial conditions
Mathematical models
Offshore
Parameters
Reynolds number
Scaling
Shallow water
Solitary waves
Viscosity
Wave height
Wave parameters
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Zusammenfassung:We present direct numerical simulations of breaking solitary waves in shallow water to quantify the energy dissipation during the active breaking time. We find that this dissipation can be predicted by an inertial model based on Taylor’s hypothesis as a function of the local wave height, depth and the beach slope. We obtain a relationship that gives the dissipation rate of a breaking wave on a shallow slope as a function of local breaking parameters. Next, we use empirical relations to relate the local wave parameters to the offshore conditions. This enables the energy dissipation to be predicted in terms of the initial conditions. We obtain good collapse of the numerical data with respect to the theoretical scaling.
ISSN:0022-1120
1469-7645
DOI:10.1017/jfm.2020.83