|Numerical modelling of hydrodynamics and sediment transport in the surf zone : a sensitivity study with different types of numerical models|
Trouw, K.; Zimmermann, N.; Mathys, M.; Delgado, R.; Roelvink, D. (2012). Numerical modelling of hydrodynamics and sediment transport in the surf zone : a sensitivity study with different types of numerical models, in: International Conference on Coastal Engineering (ICCE 2012), Santander, Spain, July 1-6 2012: book of papers. pp. [1-12]
In: (2012). International Conference on Coastal Engineering (ICCE 2012), Santander, Spain, July 1-6 2012: book of papers. Coastal Engineering Research Council of the American Society of Civil Engineers: Reston. , meer
Morphological modeling; XBeach, Delft3D, Beach dynamics
|Auteurs|| || Top |
- Delgado, R., meer
- Roelvink, D.
A comparison between two very different numerical models is presented: Delft3D and XBeach. Delft3D (Deltares) calculates non-steady flow and transport phenomena that result from tidal and meteorological forcing. The wave propagation is calculated in the frequency domain. XBeach (Unesco-IHE, Delft University and Deltares) consists of formulations for short wave envelope propagation (time-dependent wave action balance), non-stationary shallow water equations, sediment transport and bed update. The model is able to resolve the time dependent long waves, which are important in the surf zone. A number of simplified cases are defined beforehand taking into account actual features and conditions existing in chosen problem areas. The examination of these simplified cases allows for the identification of driving processes and the assessment of the sensitivity to certain relevant parameters, with the advantage of working in scenarios of limited complexity and without excessive computational load.