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MOZES – Research on the Morphological Interaction between the Sea bottom and the Belgian Coastline: Working year 2 Dujardin, A.; Houthuys, R.; Nnafie, A.; Röbke, B.; van der Werf, J.; de Swart, H.E.; Biernaux, V.; De Maerschalck, B.; Dan, S.; Verwaest, T. (2024). MOZES – Research on the Morphological Interaction between the Sea bottom and the Belgian Coastline: Working year 2. Version 4.0. FH reports, 20_079_2. Flanders Hydraulics: Antwerp. IX, 132 + 30 p. app. pp. https://dx.doi.org/10.48607/244
Deel van: FH reports. Flanders Hydraulics: Antwerp. , meer
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Beschikbaar in | Auteurs |
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Documenttype: Projectrapport |
Trefwoorden |
Hydraulics and sediment > Morphology > Erosion / sedimentation Literature and desktop study Numerical modelling Transport > Sediment transport |
Project | Top | Auteurs |
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Contactgegevens
Opdrachtgever: Vlaamse overheid; Beleidsdomein Mobiliteit en Openbare Werken; Vlaams Ministerie Mobiliteit en Openbare Werken; Departement Mobiliteit en Openbare Werken; Waterbouwkundig Laboratorium (WL), meer
Opdrachtgever: Vlaamse overheid; Beleidsdomein Mobiliteit en Openbare Werken; Vlaams Ministerie van Mobiliteit en Openbare Werken; Agentschap voor Maritieme Dienstverlening en Kust; Afdeling Kust, meer
Opdrachtgever: Vlaamse overheid; Beleidsdomein Mobiliteit en Openbare Werken; Vlaams Ministerie van Mobiliteit en Openbare Werken; Agentschap voor Maritieme Dienstverlening en Kust; Afdeling Kust, meer
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Abstract |
This report outlines progress in four Work Packages (WP1, WP2, WP3 and WP4) during the second project year. WP1 addressed analysis of field data, WP2 involved the further development of the idealized models established in the first year, WP3 delved into investigating the hypothesis of natural beach feeding through sediment transport over shoreface-connected sand ridges using the complex numerical models FlemCo and Scaldis-Coast. Finally, using the latter two models, WP4 examined the effects of the observed deepening of nearshore channels on beach erosion. WP1: Further digitization of bathymetric and beach topographic data and the collection of bed sediment data. The depth uncertainty of bathymetric surveys was analyzed; yielding an empirical uncertainty of ± 0.15 m. The produced data confirm that over the last four decades, the base of the shoreface suffers structural erosion. In a case study of Pas van Stroombank, the routinely reported "Bagger Informatie Systeem" (BIS) parameter "reduced volume" correlates well with the surveyed volume differences. Longitudinal transport over Stroombank was estimated in 2014 to be about 100 m³/m. In Kleine Rede, sediment transport was in 2010 about 4 times higher. WP2: Efforts were concentrated on further developing 1) the morphodynamic shelf model and 2) the coupled morphostatic (i.e., bottom does not change) shelf-shoreline model established in the first year. The development of the morphodynamic shelf model marked an important step forward, enabling the simulation of self-developing shoreface-connected sand ridges by incorporating (for the first time!) wave-topography feedbacks. The simulated ridges resemble those observed on the Belgian shelf, although some differences are noted. Significant improvements were made to the coupled shelf-shoreline model, enabling the reproduction of observed shoreline progradation (erosion) adjacent to the ridge crest (channel) and the steeper bathymetry profile in the breaker zone near the channel compared to that near the crest. Simulations with this model indicate that the observed onshore movement of ridges on the Belgian shelf is likely to intensify shoreline retreat near the channels and progradation near the ridge crests. Finally, a new analytical tide model showed that wave-induced sediment transport dominates in the breaker zone, while tide-induced transport becomes significant further offshore. These findings qualitatively align with results from FlemCo and Scaldis-coast models. WP3: Primary focus was to understand the observed differences between simulated longshore sediment transport and sediment pathways over ridges by the Scaldis-Coast and FlemCo models. Results from sensitivity runs revealed that these differences primarily stem from a larger wave-induced longshore sediment transport in Scaldis-Coast compared to FlemCo. As was found by the idealized model (WP2), these results confirm that wave-induced sediment transport dominates in the breaker zone, while |