2015
DOI: 10.1002/2014jc010623
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On the transport modes of fine sediment in the wave boundary layer due to resuspension/deposition: A turbulence‐resolving numerical investigation

Abstract: Previous field observations revealed that the wave boundary layer is one of the main conduits delivering fine sediments from the nearshore to continental shelves. Recently, a series of turbulenceresolving simulations further demonstrated the existence of a range of flow regimes due to different degrees of sediment-induced density stratification controlled by the sediment availability. In this study, we investigate the scenario in which sediment availability is governed by the resuspension/deposition from/to th… Show more

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Cited by 24 publications
(69 citation statements)
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“…Following previous studies (Ozdemir et al, 2010;Cheng et al, 2015), the wave condition with a free-stream velocity magnitude U 0.56 m/s 0 = ∼ and a wave period T 10 s = ∼ is considered to represent a relatively energetic flow condition when fine sediments form high concentration suspensions on continental shelves (e.g., Traykovski et al, 2000). The Stokes boundary layer thickness is calculated to be 2 / 1.78 mm Δ ν ω = = ∼ ∼ , in which ν is the fluid…”
Section: Governing Equationmentioning
confidence: 88%
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“…Following previous studies (Ozdemir et al, 2010;Cheng et al, 2015), the wave condition with a free-stream velocity magnitude U 0.56 m/s 0 = ∼ and a wave period T 10 s = ∼ is considered to represent a relatively energetic flow condition when fine sediments form high concentration suspensions on continental shelves (e.g., Traykovski et al, 2000). The Stokes boundary layer thickness is calculated to be 2 / 1.78 mm Δ ν ω = = ∼ ∼ , in which ν is the fluid…”
Section: Governing Equationmentioning
confidence: 88%
“…By substituting Eq. (3) into the Eulerian two-phase equations for the fluid phase (Cantero et al, 2008), and adopting the Boussinesq approximation, which is appropriate for the relatively small volumetric concentration of suspended fine sediment on continental shelves (Traykovski et al, 2007), the resulting non-dimensional continuity and momentum equations of the fluid phase are written as (Cheng et al, 2015) …”
Section: Governing Equationmentioning
confidence: 99%
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