Journal ArticleDOI
Propagation and breaking characteristics of solitons and N-wave in fresh water and brine
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In this article, the results of the study on the wave propagation and breaking of solitons and N-waves in fresh water and brine are reported, and the experiments were performed in the twin flume facility at the Franzius Institute, Leibniz University of Hannover.Abstract:
In this paper, the results of the study on the wave propagation and breaking of solitons and N-waves in fresh water and brine are reported. The experiments were performed in the twin flume facility at the Franzius Institute, Leibniz University of Hannover. Brine from Dead Sea was used for the study. The objective of the experimental study was to determine the flood safety levels along the banks of the Dead Sea and to arrive at the empirical equations for run-up. A weakly coupled numerical model based on the fully nonlinear potential flow and Navier–Stokes equation was used to validate the experimental results. The proposed numerical model is in good agreement with the present experimental results and the available analytical solutions for run-up estimation. The breaking N-waves were found to have a reduced run-up when compared to breaking solitons. The paper shows that the long wave propagation and run-up in both brine and water has similar characteristics.read more
Citations
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Runup of Laboratory-Generated Breaking Solitary and Periodic Waves on a Uniform Slope
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A hybrid numerical model based on FNPT-NS for the estimation of long wave run-up
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References
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EurOtop wave overtopping of sea defences and related structures: assessment manual
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On the solitary wave paradigm for tsunamis
DissertationDOI
Tsunamis -- the propagation of long waves onto a shelf
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