A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Modèle empirique 3D
The development of tools to predict bathymetric evolution is a major factor in good dredging management. This study presents an empirical morphodynamic model based on eigenfunction analysis, linked linearly to climatic and human forcings. Applied to the Adour river mouth, the model represents well the silting and the dredging of the navigation channel and preventive trench. The accuracy, limitations and possibilities of this approach are analyzed and discussed. Finally, the model is used as a dredging management tool by simulating different scenarios.
Modèle empirique 3D
The development of tools to predict bathymetric evolution is a major factor in good dredging management. This study presents an empirical morphodynamic model based on eigenfunction analysis, linked linearly to climatic and human forcings. Applied to the Adour river mouth, the model represents well the silting and the dredging of the navigation channel and preventive trench. The accuracy, limitations and possibilities of this approach are analyzed and discussed. Finally, the model is used as a dredging management tool by simulating different scenarios.
Modèle empirique 3D
Rihouey, Didier (author) / Dubranna, Jean (author)
European Journal of Environmental and Civil Engineering ; 12 ; 133-146
2008-02-01
14 pages
Article (Journal)
Electronic Resource
Unknown
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