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Numerical and physical modelling of wave penetration in Oostende harbour during severe storm conditions
Gruwez, V.; Bolle, A.; Verwaest, T.; Hassan, W. (2012). Numerical and physical modelling of wave penetration in Oostende harbour during severe storm conditions, in: Schüttrumpf, H. et al. (Ed.) 5th SCACR International Short Conference on Applied Coastal Research: proceedings, 6th-9th June, 2011 - RWTH Aachen University, Germany. Mitteilungen des Lehrstuhls und Instituts für Wasserbau und Wasserwirtschaft der Rheinisch-Westfälischen Technischen Hochschule Aachen, 165: pp. 198-205
In: Schüttrumpf, H.; Tomasicchio, G.R. (Ed.) (2012). 5th SCACR International Short Conference on Applied Coastal Research: proceedings, 6th-9th June, 2011 - RWTH Aachen University, Germany. Mitteilungen des Lehrstuhls und Instituts für Wasserbau und Wasserwirtschaft der Rheinisch-Westfälischen Technischen Hochschule Aachen, 165. Shaker: Aachen. ISBN 978-3-8440-1132-6. XII, 603 pp., more
In: Mitteilungen des Lehrstuhls und Instituts für Wasserbau und Wasserwirtschaft der Rheinisch-Westfälischen Technischen Hochschule Aachen. Shaker: Aachen. ISSN 1437-8477, more
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Document type: Conference paper
Keywords
    Anchorages > Harbours
    Boussinesq equations
    Modelling
    Numerical models
    Physical models
Author keywords
    Wave penetration; Mild slope equations; Local wind generated waves
Authors  Top 
  • Gruwez, V.
  • Bolle, A., more
  • Verwaest, T., more
  • Hassan, W., more
Abstract
    Hydrodynamic boundary conditions are needed for the design of new sea defence structures in the harbour of Oostende along all quays to defend the city centre and hinterland from flooding during a super storm. The wave climate in the harbour was decoupled to wave penetration and locally generated wind waves to allow separate modelling of both phenomena. The wave penetration was modelled with a physical wave model, a mild slope equations model MILDwave and a Boussinesq equations model Mike 21 BW. The locally wind generated waves were modelled with the spectral model SWAN. By using a thin sponge layer along the boundaries in the numerical wave penetration models to model partial reflection inside the harbour, very good correspondence is found between the numerical wave penetration models and the physical model. Finally, the wave penetration energy and locally generated wave energy were superposed to obtain the complete wave climate along all structures inside the harbour during severe storm conditions.
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