LOADING OF VERTICAL WALLS BY OVERTOPPING BORES USING PRESSURE AND FORCE SENSORS - A LARGE SCALE MODEL STUDY
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Keywords

storm wall
wave overtopping
overtopping bore
impact loads
layer thickness
residual water layer

How to Cite

Ramachandran, K., Genzalez, R. R., Oumeraci, H., Schimmels, S., Kudella, M., Van Doorslaer, K., De Rouck, J., Versluys, T., & Trouw, K. (2012). LOADING OF VERTICAL WALLS BY OVERTOPPING BORES USING PRESSURE AND FORCE SENSORS - A LARGE SCALE MODEL STUDY. Coastal Engineering Proceedings, 1(33), currents.44. https://doi.org/10.9753/icce.v33.currents.44

Abstract

This study is based on the data obtained from tests carried out in the Large Wave Flume (Grosser Wellenkanal (GWK)) in Hannover in the frame of a joint research project of Ghent University (Belgium) and Forschungszentrum Kuste (FZK, Germany). The goal of the research project is to determine the wave induced loads on vertical storm walls located at the end of overtopped dike, which are designed to protect coastal cities from overtopping and floods. The loads resulting from waves overtopping the dike and impacting the vertical wall as a bore are measured by means of both force and pressure sensors. This paper describes the results of pressure and force records at the vertical wall, including a comparative analysis of the overall forces obtained by pressure integration and force sensors for two different wall setups: Fully blocked wall and partially blocked wall.
https://doi.org/10.9753/icce.v33.currents.44
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