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Estimating Vegetation Drag on Bore Propagation Using a High-Resolution, Non-Hydrostatic Shallow Water Model With Turbulence Closure

Author(s): Bobby Minola Ginting; Tatsuhiko Uchida

Linked Author(s): Tatsuhiko Uchida

Keywords: Drag force; Experimental validation; Fully-resolved; Non-hydrostatic; Turbulence; Vegetation

Abstract: In this study, we estimated vegetation drag forces exerted on a propagating bore, represented by arrays of emergent cylinders in the experimental setup, by accounting for free-surface and bottom pressure fluctuations around the cylinders. To capture these fluctuations, we employed NUFSAW2D, our in-house non-hydrostatic shallow-water solver with turbulence closure, where the cylinders were fully resolved using fine-resolution meshes of up to 7.5 mm. Three initial Froude numbers (1.32, 1.53, and 3.98) were considered to generate the bore. Within the vegetated zone, complex wave-vortex-vegetation interactions were observed, and our fully resolved model accurately predicted water-level fluctuations under medium and high Froude number conditions. For the low Froude number case, the amplitude was well captured; however, slight discrepancies of approximately 0.2 s in wave period indicated significant non-hydrostatic effects. To quantify vegetation drag, we compared the fully resolved model with several drag-force formulations. Results revealed notable discrepancies between the two approaches under conditions of strong water-level fluctuations.

DOI:

Year: 2026

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