An Experimental and Numerical Study of Long Wave Run-Up on a Plane Beach

Drähne, Ulrike; Goseberg, Nils; Vater, Stefan; Beisiegel, Nicole; Behrens, Jörn

doi:10.3390/jmse4010001

Cited by 9 publications

(4 citation statements)

References 43 publications

(75 reference statements)

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“…Others have achieved reasonable scaling using other generation methods, see e.g. the pump generated tsunami experiments by Rossetto et al (2011), Goseberg et al (2013), Goseberg (2013), Drähne et al (2016) and .…”

Section: Introductionmentioning

confidence: 99%

Full-scale CFD simulation of tsunamis. Part 1: Model validation and run-up

Larsen

Fuhrman

2019

Coastal Engineering

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Section: Introductionmentioning

confidence: 99%

Full-scale CFD simulation of tsunamis. Part 1: Model validation and run-up

Larsen

Fuhrman

2019

Coastal Engineering

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“…6 pointed out that solitary wave was barely justified for geophysical scale tsunami modelling just as meaningful evidence supporting the difference between N-wave and solitary wave has been reported 16 – 19 . Accordingly, we generate a single-period sinusoidal wave on the flat seabed, which can be found through recent tsunami-related works 20 – 22 . The incident wave is designed to be with .…”

Section: Methodsmentioning

confidence: 99%

Lagrangian-like Volume Tracking Paradigm for Mass, Momentum and Energy of Nearshore Tsunamis and Damping Mechanism

Kim

Son

2018

Sci Rep

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There is a gap between model- or theory-based research outputs, which suggest that the runup and amplification of nonbreaking waves generally increase as the sea bottom slopes decrease, and field observations, which indicate that tsunami damage has been rarely reported in places with vast continental shelfs. To resolve this contradiction, we propose a Lagrangian-like volume tracking paradigm to describe the energy, mass, and momentum of travelling nearshore tsunamis and apply the paradigm to analyse the tsunami damping mechanism at typical geophysical scales. The results support the following conclusions: (i) The suggested paradigm is consistent with field observations; continental shelfs with long and mild slopes can effectively diminish tsunami impacts. (ii) Potential energy becomes significant due to the energy transformation process on steeply sloped bathymetries. (iii) On mild-sloped bathymetries, tsunami potential and kinetic energies are conserved until breaking occurs. After breaking, undular bores attenuate tsunami energies effectively. (iv) For extended continental shelf bathymetries, more of the tsunami mass is reflected offshore.

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“…By raising or lowering the water level in the chamber through the adjustment of its relative vacuum, a corresponding wave trough or wave crest is then created [32]. On the other hand, Goseberg and colleagues [33][34][35] were able to generate much longer waves with arbitrary waveforms by employing four high-capacity pipe pumps to control the acceleration and deceleration of water in a closed-circuit wave flume. Specifically, waves are actually induced by the produced bidirection current.…”

Section: Introductionmentioning

confidence: 99%

“…This makes them more suitable for laboratory tsunami research. For instance, some direct applications of these wave generators to the study of tsunami runup are reported in [32,35,38].…”

Section: Introductionmentioning

confidence: 99%

Numerical Investigation of Wave Generation Characteristics of Bottom-Tilting Flume Wavemaker

Wang

Chan

2020

JMSE

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Motivated by the recently developed bottom-tilting wavemaker specially designed for tsunami research, we propose to investigate numerically the wave generation mechanism of this new wave generator. A series of numerical experiments is carried out using a RANS-based computer model to evaluate the effects of wavemaker length, bottom displacement, motion duration, and water depth on the wavelength, wave amplitude, phase speed, and waveform of the leading waves produced by the bottom-motion wave generator. Numerical results fit well with the existing laboratory data. Explicit equations for the wavelength and wave amplitude are developed and can serve as the guideline for wave generation. Encouraging results suggest that bottom-tilting wavemaker is a good alternative to the traditional piston-type wavemaker for tsunami research.

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An Experimental and Numerical Study of Long Wave Run-Up on a Plane Beach

Cited by 9 publications

References 43 publications

Full-scale CFD simulation of tsunamis. Part 1: Model validation and run-up

Full-scale CFD simulation of tsunamis. Part 1: Model validation and run-up

Lagrangian-like Volume Tracking Paradigm for Mass, Momentum and Energy of Nearshore Tsunamis and Damping Mechanism

Numerical Investigation of Wave Generation Characteristics of Bottom-Tilting Flume Wavemaker

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