Hydrodynamics under large-scale regular and bichromatic breaking waves

Dominic van Der A; Joep van der Zanden; Ming Li; James Cooper; Simon Clark; Bjarke Eltard-Larsen; Stefan Carstensen; David Fuhrman; Carmelo Petrotta; Carla Faraci; Iván Cáceres; Stuart McLelland; Guillaume Fromant; David Hurther; Gerben Ruessink; Joost Brinkkemper

doi:10.9753/icce.v36.waves.90

Hydrodynamics under large-scale regular and bichromatic breaking waves

Dominic van Der A, Joep van der Zanden, Ming Li, James Cooper, Simon Clark, Bjarke Eltard-Larsen, Stefan Carstensen, David Fuhrman, Carmelo Petrotta, Carla Faraci, Iván Cáceres, Stuart McLelland, Guillaume Fromant, David Hurther, Gerben Ruessink, Joost Brinkkemper

Engineering

Research output: Chapter in Book/Report/Conference proceeding › Published conference contribution

Abstract

Multiphase CFD models recently have proved promising in modelling cross†shore sediment transport and morphodynamics (Jacobsen et al 2014). However, modelling breaking wave turbulence remains a major challenge for these models, because it occurs at very different spatial and temporal length scales and involves the interaction between surface generated turbulence and turbulence generated in the bottom boundary layer. To an extent these challenges arise from a lack of appropriate experimental data, since most previous experimental studies involved breaking waves at small-scale, and have not permitted investigation of the turbulent boundary layer processes. Moreover, most existing studies have concentrated on regular waves, thereby excluding the flow and turbulence dynamics occurring at wave group time-scales under irregular waves within the surf zone. These limitations motivated a new experiment in the large-scale CIEM wave flume in Barcelona involving regular and irregular waves. The experiment was conducted in May-July 2017 within the HYDRALAB+ Transnational Access project HYBRID.

Original language	English
Title of host publication	Coastal Engineering Proceedings
Volume	1
Edition	36 (2018)
DOIs	https://doi.org/10.9753/icce.v36.waves.90
Publication status	Published - 2018
Event	36th International Conference on Coastal Engineering, ICCE 2018 - Baltimore, United States Duration: 30 Jul 2018 → 3 Aug 2018

Conference

Conference	36th International Conference on Coastal Engineering, ICCE 2018
Country/Territory	United States
City	Baltimore
Period	30/07/18 → 3/08/18

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10.9753/icce.v36.waves.90

Cite this

van Der A, D., van der Zanden, J., Li, M., Cooper, J., Clark, S., Eltard-Larsen, B., Carstensen, S., Fuhrman, D., Petrotta, C., Faraci, C., Cáceres, I., McLelland, S., Fromant, G., Hurther, D., Ruessink, G., & Brinkkemper, J. (2018). Hydrodynamics under large-scale regular and bichromatic breaking waves. In Coastal Engineering Proceedings (36 (2018) ed., Vol. 1). Article waves 90 https://doi.org/10.9753/icce.v36.waves.90

van Der A, D, van der Zanden, J, Li, M, Cooper, J, Clark, S, Eltard-Larsen, B, Carstensen, S, Fuhrman, D, Petrotta, C, Faraci, C, Cáceres, I, McLelland, S, Fromant, G, Hurther, D, Ruessink, G & Brinkkemper, J 2018, Hydrodynamics under large-scale regular and bichromatic breaking waves. in Coastal Engineering Proceedings. 36 (2018) edn, vol. 1, waves 90, 36th International Conference on Coastal Engineering, ICCE 2018, Baltimore, United States, 30/07/18. https://doi.org/10.9753/icce.v36.waves.90

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title = "Hydrodynamics under large-scale regular and bichromatic breaking waves",

abstract = "Multiphase CFD models recently have proved promising in modelling cross†shore sediment transport and morphodynamics (Jacobsen et al 2014). However, modelling breaking wave turbulence remains a major challenge for these models, because it occurs at very different spatial and temporal length scales and involves the interaction between surface generated turbulence and turbulence generated in the bottom boundary layer. To an extent these challenges arise from a lack of appropriate experimental data, since most previous experimental studies involved breaking waves at small-scale, and have not permitted investigation of the turbulent boundary layer processes. Moreover, most existing studies have concentrated on regular waves, thereby excluding the flow and turbulence dynamics occurring at wave group time-scales under irregular waves within the surf zone. These limitations motivated a new experiment in the large-scale CIEM wave flume in Barcelona involving regular and irregular waves. The experiment was conducted in May-July 2017 within the HYDRALAB+ Transnational Access project HYBRID. ",

author = "{van Der A}, Dominic and {van der Zanden}, Joep and Ming Li and James Cooper and Simon Clark and Bjarke Eltard-Larsen and Stefan Carstensen and David Fuhrman and Carmelo Petrotta and Carla Faraci and Iv{\'a}n C{\'a}ceres and Stuart McLelland and Guillaume Fromant and David Hurther and Gerben Ruessink and Joost Brinkkemper",

year = "2018",

doi = "10.9753/icce.v36.waves.90",

language = "English",

volume = "1",

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note = "36th International Conference on Coastal Engineering, ICCE 2018 ; Conference date: 30-07-2018 Through 03-08-2018",

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AU - van Der A, Dominic

AU - van der Zanden, Joep

AU - Li, Ming

AU - Cooper, James

AU - Clark, Simon

AU - Eltard-Larsen, Bjarke

AU - Carstensen, Stefan

AU - Fuhrman, David

AU - Petrotta, Carmelo

AU - Faraci, Carla

AU - Cáceres, Iván

AU - McLelland, Stuart

AU - Fromant, Guillaume

AU - Hurther, David

AU - Ruessink, Gerben

AU - Brinkkemper, Joost

PY - 2018

Y1 - 2018

N2 - Multiphase CFD models recently have proved promising in modelling cross†shore sediment transport and morphodynamics (Jacobsen et al 2014). However, modelling breaking wave turbulence remains a major challenge for these models, because it occurs at very different spatial and temporal length scales and involves the interaction between surface generated turbulence and turbulence generated in the bottom boundary layer. To an extent these challenges arise from a lack of appropriate experimental data, since most previous experimental studies involved breaking waves at small-scale, and have not permitted investigation of the turbulent boundary layer processes. Moreover, most existing studies have concentrated on regular waves, thereby excluding the flow and turbulence dynamics occurring at wave group time-scales under irregular waves within the surf zone. These limitations motivated a new experiment in the large-scale CIEM wave flume in Barcelona involving regular and irregular waves. The experiment was conducted in May-July 2017 within the HYDRALAB+ Transnational Access project HYBRID.

AB - Multiphase CFD models recently have proved promising in modelling cross†shore sediment transport and morphodynamics (Jacobsen et al 2014). However, modelling breaking wave turbulence remains a major challenge for these models, because it occurs at very different spatial and temporal length scales and involves the interaction between surface generated turbulence and turbulence generated in the bottom boundary layer. To an extent these challenges arise from a lack of appropriate experimental data, since most previous experimental studies involved breaking waves at small-scale, and have not permitted investigation of the turbulent boundary layer processes. Moreover, most existing studies have concentrated on regular waves, thereby excluding the flow and turbulence dynamics occurring at wave group time-scales under irregular waves within the surf zone. These limitations motivated a new experiment in the large-scale CIEM wave flume in Barcelona involving regular and irregular waves. The experiment was conducted in May-July 2017 within the HYDRALAB+ Transnational Access project HYBRID.

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U2 - 10.9753/icce.v36.waves.90

DO - 10.9753/icce.v36.waves.90

M3 - Published conference contribution

AN - SCOPUS:85074073054

VL - 1

BT - Coastal Engineering Proceedings

T2 - 36th International Conference on Coastal Engineering, ICCE 2018

Y2 - 30 July 2018 through 3 August 2018

ER -

Hydrodynamics under large-scale regular and bichromatic breaking waves

Abstract

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