Short-wave sand transport in the shallow surf zone

J. A. Brinkkemper*, T. Aagaard, A. T.M. de Bakker, B. G. Ruessink

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

Empirical parameterizations of the shortwave sand transport that are used in practical engineering models lack the representation of certain processes to accurately predict morphodynamics in shallow water. Therefore, measurements of near‐bed velocity and suspended sand concentration, collected during two field campaigns (at the Sand Engine and Ameland, the Netherlands) and one field‐scale laboratory experiment (BARDEXII), were here analyzed to study the magnitude and direction of the shortwave sand flux in the shallow surf zone. Shortwave sand fluxes dominated the total sand flux during low‐energetic accretive conditions, while the mean cross‐shore current (undertow) dominated the total flux during high‐energetic erosive conditions. Under low‐energetic conditions, the onshore‐directed shortwave sand flux scales with the root‐mean‐square orbital velocity urms and velocity asymmetry Au but not with the velocity skewness. Under more energetic conditions the shortwave flux reduces with an increase in the cross‐shore mean current  and can even become offshore directed. For all data combined, the contribution of the shortwave flux to the total flux scales with , with a high contribution of the shortwave flux (∼70%) when this ratio is high (∼ 10) and low contributions (∼0%) when this ratio is low (∼1). We argue that the velocity asymmetry is a good proxy for the net effect of several transport mechanisms in the shallow surf zone, including breaking‐induced turbulence. These field and laboratory measurements under irregular waves thus support the hypothesis that the inclusion of velocity asymmetry in transport formulations would improve the performance of morphodynamic models in shallow water.

Original languageEnglish
Pages (from-to)1145-1159
JournalJournal of geophysical research. Earth surface
Volume123
DOIs
Publication statusPublished - 2018

Keywords

  • Measurements
  • Sand transport
  • Surf zone
  • Wave asymmetry

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