Add model names in introduction
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@ -63,10 +63,11 @@ for the study of multiphase incompressible flows.
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In this paper, we use two nested models: a large scale one-dimensionnal model to study the transformation of the wave
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from the wave buoy to the proximity of the breakwater, and a VOF model in two vertical dimensions to study the
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hydrodynamic conditions near the breakwater. The large scale model uses a depth-averaged non-linear non-hydrostatic
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model that was already calibrated by \textcite{poncet2022}. The nested model is a VOF model based on volume averaged
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Reynolds averaged Navier-Stokes (VARANS) equations and a macroscopic representation of the porous armour of the
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breakwater. The model is qualitatively calibrated using photographs from the storm of February 28, 2017.
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hydrodynamic conditions near the breakwater. The large scale model uses SWASH \parencite{zijlema2011} a depth-averaged
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non-linear non-hydrostatic model that was already calibrated by \textcite{poncet2022}. The nested model uses olaFlow
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\parencite{higuera2015}, a VOF model based on volume averaged Reynolds averaged Navier-Stokes (VARANS) equations which
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relies on a macroscopic representation of the porous armour of the breakwater. The model is qualitatively calibrated
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using photographs from the storm of February 28, 2017.
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Results from the nested models are compared to the analytical equations provided by \textcite{nandasena2011}.
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