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Research Dike: Wave overtopping assessment and impact on a dike with shallow foreshore depths - Living Lab Raversijde
Citation
Ministerie van de Vlaamse Gemeenschap, Departement Mobiliteit en Openbare Werken, Waterbouwkundig Laboratorium. https://marineinfo.org/id/dataset/8439
Contact:

Availability: This work is licensed under http://vocab.nerc.ac.uk/collection/L08/current/MO meaning it is under moratorium until 2030-01-01

Notes: During the LLR project 2021-2030: open data for all participants in the project that have accepted the data sharing project rules (cf. huishoudelijk reglement)

Description

In the framework of the Raversijde Living Lab project, a dike is placed in front of the dike to assess the impact of waves in stormy conditions.

By different sensors distributed on the dike, the assessment includes predicting rogue individual overtopping with a focus on infragravity ig waves, improving the dike foreshore morphodynamics prediction during storms, verifying wave conditions at the dike toe considering directional spreading, and identifying additional long waves beyond those currently considered in safety assessments.


Scope
Themes:
Meteorology, Physical, Physical > Hydrography (e.g. T,S), Physical > Hydrography (e.g. T,S) - near surface only, Physical > Water level (& bottom pressure, IES), Physical > Waves - swell
Keywords:
Marine/Coastal, Belgian coastal waters, Breaking height/Waves, Coast/Waves, Coastal defences, Coastal marine areas, Coastal observatory, Infragravity waves, Intertidal zone, Large overtopping masses, Man-made coastal structures, Numerical modelling of waves, Oostende (Belgium), Physical meteorology, Physical parameters, Tides/Waves, ANE, Belgium, Oostende, Raversijde-Bad

Geographical coverage
ANE, Belgium, Oostende, Raversijde-Bad [Marine Regions]

Temporal coverage
3 March 2021 - 3 March 2030

Parameters
Air pressure Methodology
Overtopping water discharge Methodology
Water layer thickness Methodology
Wave force Methodology
Wave speed Methodology
Air pressure: Research dike
A research dike is constructed along the shoreline to measure overtopping discharge. This structure helps analyze and understand the dynamics of wave overtopping, providing valuable data for coastal protection design and flood risk assessment
Overtopping water discharge: Research dike
A research dike is constructed along the shoreline to measure overtopping discharge. This structure helps analyze and understand the dynamics of wave overtopping, providing valuable data for coastal protection design and flood risk assessment
Water layer thickness: Research dike
A research dike is constructed along the shoreline to measure overtopping discharge. This structure helps analyze and understand the dynamics of wave overtopping, providing valuable data for coastal protection design and flood risk assessment
Wave force : Research dike
A research dike is constructed along the shoreline to measure overtopping discharge. This structure helps analyze and understand the dynamics of wave overtopping, providing valuable data for coastal protection design and flood risk assessment
Wave speed: Research dike
A research dike is constructed along the shoreline to measure overtopping discharge. This structure helps analyze and understand the dynamics of wave overtopping, providing valuable data for coastal protection design and flood risk assessment

Contributor
Vlaamse overheid; Beleidsdomein Mobiliteit en Openbare Werken (MOW), moredata collector

Project
Living Lab Raversijde, more

Dataset status: In Progress
Data type: Data
Data origin: Research: field experiment
Metadatarecord created: 2023-12-01
Information last updated: 2024-02-21
All data in the Integrated Marine Information System (IMIS) is subject to the VLIZ privacy policy