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MOZES – Research on the Morphological Interaction between the Sea bottom and the Belgian Coastline: working year 1 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. (2023). MOZES – Research on the Morphological Interaction between the Sea bottom and the Belgian Coastline: working year 1. Version 4.0. FH reports, 20_079_1. Flanders Hydraulics: Antwerp. XII, 155 + 6 p. app. pp. https://dx.doi.org/10.48607/176
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 |
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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 describes the progress of four subtasks (called Work Packages, WP) of the first working year. WP1 involves data collection to expand the overall covering of the historic elevation dataset of the Belgian coast. WP2 addresses the coupled shelf-shoreline long-term morphodynamics (10-100 years) by developing new idealized morphodynamic models. WP3 investigates the hypothesis of natural feeding of the beach by sediment transport over shoreface-connected sand ridges (sfcr) using complex process-based numerical models (Delft3D Flexible-Mesh FlemCo model, openTELEMAC Scaldis-Coast model). Finally, WP4 addresses effects of the observed deepening of nearshore tidal channels on beach erosion and beach nourishments. WP1: Inner shelf, nearshore bathymetric and beach topographic maps of the mid-1980s have newly been vectorized and converted to DEMs, showing the situation just after the extension of the Zeebrugge harbour breakwaters. Another DEM was built for the year 1866: a coastline without harbour breakwaters and three sfcr (Trapegeer – Broersbank – Den Oever; Stroombank; and Wenduinebank – Paardenmarkt), as opposed to only the first one nowadays. WP2: A new idealized morphodynamic shelf model was developed, which is capable of reproducing ridges that resemble the sfcr observed on the Long-Island shelf (New York, USA), which were used to validate this new model. Furthermore, an existing shelf-shoreline coupled model, which was designed for the Long-Island micro-tidal coast, was modified so that it is more representative for the Belgium coast. Preliminary results are promising, but still many adjustments are needed in the two models (inclusion of tides, waves and sea-level rise, using more realistic bathymetry,…), which are suggested key topics for the next working year. WP3: Preliminary results from the complex morphological models for years 1866 and 2015 indicate landward sediment transport over the nearshore parts of sfcr towards the beaches. Further research is needed to examine whether this landward directed sediment indeed nourishes the beaches (called natural feeding). Moreover, the interaction of tide and waves relevant for this landward directed has to be investigated in more detail. WP4: Analysis of the large-scale morphological changes between 1984 – 1987 and 2022 showed a landwards and northeastwards movement of the sfcr and the tidal channels that separate these ridges from the coastline. A deepening of those channels is observed, although doubts on the vertical accuracy of the 1980’s map prohibited the execution of reliable volume balances. An analysis of beach and shoreface nourishment intensity showed that storm events, changes in (safety) policy or nourishment method and other human factors are the main drivers behind nourishment intensity and obscure a possible correlation with the deepening of nearshore tidal channels. |
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