CFD Modelling Of Wave Impacts On Sea Dikes With Shallow Foreshores – A Detailed Validation With Large-Scale Experiments
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Published:2024
V. Gruwez, C. Altomare, T. Suzuki, M. Streicher, L. Cappietti, A. Kortenhaus, P. Troch, 2024. "CFD Modelling Of Wave Impacts On Sea Dikes With Shallow Foreshores – A Detailed Validation With Large-Scale Experiments", Coasts, Marine Structures and Breakwaters 2023: Resilience and adaptability in a changing climate, Kevin Burgess
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ABSTRACT
In this paper, a Reynolds-averaged Navier–Stokes (RANS) equations solver, interFoam of OpenFOAM®, is validated for wave interactions with a dike, including a promenade and vertical wall, on a shallow foreshore. Such a coastal defence system is composed of both an impermeable dike and a beach in front of it, forming the shallow foreshore depth at the dike toe. This case necessitates the simulation of several processes simultaneously: wave propagation, wave breaking over the beach slope, and wave interactions with the sea dike, consisting of wave overtopping, bore interactions on the promenade, and bore impacts on the dike-mounted vertical wall at the end of the promenade (storm wall or building). The validation is done using rare large-scale experimental data. Model performance statistics are employed to quantify the ability of the numerical model to reproduce the experimental data. In the evaluation method, a repeated test is used to estimate the experimental uncertainty. The solver interFoam is shown to generally have a very good model performance rating.
