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Sediment Transport in Combined Wave–Current Seabed Boundary Layers due to Streaming

Mohammad Saud Afzal, Lars Erik Holmedal, Dag Myrhaug

2021Journal of Hydraulic Engineering25 citationsDOIOpen Access PDF

Abstract

The sediment transport in the seabed boundary layer due to wave-induced streaming has been investigated for nonzero angle between the current and the waves. The mean sediment transport is a result of interaction between streaming due to wave skewness, the Longuet-Higgins streaming, and the wave–current interaction. For colinear waves, the mean sediment transport is directed along the wave propagation direction, with the largest transport taking place beneath the waves propagating in the direction of the current. Mean sediment transport decreases with increasing angle between the current and the waves. For a particular angle, the mean sediment transport beneath second-order Stokes waves is largest and decreases in the following order: linear propagating waves followed by horizontally uniform Stokes forcing and smallest for horizontally uniform linear forcing. The direction of the mean sediment transport is rotated toward the current away from the direction in which the wave propagates. The magnitude of rotation is smallest for second-order Stokes waves and increases in the following order; linear propagating waves followed by horizontally uniform Stokes forcing, and largest for horizontally uniform linear forcing.

Topics & Concepts

Stokes driftSeabedSediment transportForcing (mathematics)Current (fluid)GeologyMechanicsRotation (mathematics)Wave propagationSedimentPhysicsGeometryGeophysicsOpticsAtmospheric sciencesGeomorphologyMathematicsOceanographyCoastal and Marine DynamicsAeolian processes and effectsGeological formations and processes