Elucidation of wave pressure acting on a wave-cut notch beneath a coastal cliff based on laboratory experiments and numerical modeling
Elucidation of wave pressure acting on a wave-cut notch beneath a coastal cliff based on laboratory experiments and numerical modeling
To investigate past extreme waves which deposited cliff-top boulders, it is important to elucidate the wave force acting on wave-cut notches beneath coastal cliffs. Our laboratory experiments have revealed that extreme waves over coastal cliffs generated both sustained and impulsive forces, and that sustained forces can be estimated from buoyancy, because velocities are rather small when sustained forces are generated. Thus, boulders at coastal cliffs are likely moved by impulsive forces but not by sustained forces. We have also proposed coefficients of the formula which can reproduce impulsive and sustained wave forces acting on the notch based on observed and simulated wave heights and velocities. Using the proposed formula, wave heights and velocities that are necessary to move boulders up coastal cliffs can be estimated without numerical simulations. In our future investigation, we will account for the scaling effect of impulsive forces acting on coastal cliffs.
Cliff-top deposition, Coastal boulder, Coastal cliff, Coastal waves, Impulsive wave pressure, Laboratory experiment
Watanabe, Masashi
880b3e5b-42a4-49a2-b196-0d06e54e45db
Arikawa, Taro
b28764bf-bf48-47ea-a3e4-be66f640670f
15 February 2023
Watanabe, Masashi
880b3e5b-42a4-49a2-b196-0d06e54e45db
Arikawa, Taro
b28764bf-bf48-47ea-a3e4-be66f640670f
Watanabe, Masashi and Arikawa, Taro
(2023)
Elucidation of wave pressure acting on a wave-cut notch beneath a coastal cliff based on laboratory experiments and numerical modeling.
Ocean Engineering, 270, [113656].
(doi:10.1016/j.oceaneng.2023.113656).
Abstract
To investigate past extreme waves which deposited cliff-top boulders, it is important to elucidate the wave force acting on wave-cut notches beneath coastal cliffs. Our laboratory experiments have revealed that extreme waves over coastal cliffs generated both sustained and impulsive forces, and that sustained forces can be estimated from buoyancy, because velocities are rather small when sustained forces are generated. Thus, boulders at coastal cliffs are likely moved by impulsive forces but not by sustained forces. We have also proposed coefficients of the formula which can reproduce impulsive and sustained wave forces acting on the notch based on observed and simulated wave heights and velocities. Using the proposed formula, wave heights and velocities that are necessary to move boulders up coastal cliffs can be estimated without numerical simulations. In our future investigation, we will account for the scaling effect of impulsive forces acting on coastal cliffs.
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Accepted/In Press date: 6 January 2023
e-pub ahead of print date: 17 January 2023
Published date: 15 February 2023
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Publisher Copyright:
© 2023
Keywords:
Cliff-top deposition, Coastal boulder, Coastal cliff, Coastal waves, Impulsive wave pressure, Laboratory experiment
Identifiers
Local EPrints ID: 493935
URI: http://eprints.soton.ac.uk/id/eprint/493935
ISSN: 0029-8018
PURE UUID: 857c3a84-8d2f-413b-a4de-d4a89453b137
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Date deposited: 17 Sep 2024 17:03
Last modified: 19 Sep 2024 02:09
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Author:
Masashi Watanabe
Author:
Taro Arikawa
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