Gradation effects in sediment transport

R J de Meijer; J Bosboom; B Cloin; I Katopodi; N Kitou; R L Koomans; F Manso

doi:10.1016/S0378-3839(02)00125-4

Gradation effects in sediment transport

R J de Meijer^*, J Bosboom, B Cloin, I Katopodi, N Kitou, R L Koomans, F Manso

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

20 Citations (Scopus)

Abstract

To determine the effects of grain size and density gradation in oscillatory sheet-flow, experiments are conducted in an oscillating water tunnel. A formal derivation of a schematised transport model shows that the transport rates per sediment fraction can be determined with and without the assumption of an active layer. A technique that measures sediment composition from natural occurring radionuclides is used to determine the transport rates without that assumption of an active layer. The measurements on total sediment transport rates and suspended sediment concentrations show that effects of gradation are present. The effects of size gradation are mainly in the increased transport rates of the coarse fraction with respect to the uniform coarse material and the availability at the bed under similar conditions. The experiments on density graded sediments indicate that total mass-transport rates are larger than the mass-transport rates of quartz material, whilst the transport rates of the quartz fraction show that this fraction is not hindered by the availability at the bed. (C) 2002 Elsevier Science B.V. All rights reserved.

Original language	English
Article number	PII S0378-3839(02)00125-4
Pages (from-to)	179-210
Number of pages	32
Journal	Coastal Engineering
Volume	47
Issue number	2
DOIs	https://doi.org/10.1016/S0378-3839(02)00125-4
Publication status	Published - Dec-2002

Keywords

size gradation
density gradation
wave-flume experiments
sediment transport rates
bedload
suspended sediment concentrations
sediment characterisation
heavy minerals
natural radioactivity
Medusa
HEAVY MINERALS
NILE-DELTA
ENTRAINMENT
THRESHOLD
PATTERNS
PLACERS
GRAVEL
MODEL
EGYPT

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Gradation effects in sediment transport
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title = "Gradation effects in sediment transport",

abstract = "To determine the effects of grain size and density gradation in oscillatory sheet-flow, experiments are conducted in an oscillating water tunnel. A formal derivation of a schematised transport model shows that the transport rates per sediment fraction can be determined with and without the assumption of an active layer. A technique that measures sediment composition from natural occurring radionuclides is used to determine the transport rates without that assumption of an active layer. The measurements on total sediment transport rates and suspended sediment concentrations show that effects of gradation are present. The effects of size gradation are mainly in the increased transport rates of the coarse fraction with respect to the uniform coarse material and the availability at the bed under similar conditions. The experiments on density graded sediments indicate that total mass-transport rates are larger than the mass-transport rates of quartz material, whilst the transport rates of the quartz fraction show that this fraction is not hindered by the availability at the bed. (C) 2002 Elsevier Science B.V. All rights reserved.",

keywords = "size gradation, density gradation, wave-flume experiments, sediment transport rates, bedload, suspended sediment concentrations, sediment characterisation, heavy minerals, natural radioactivity, Medusa, HEAVY MINERALS, NILE-DELTA, ENTRAINMENT, THRESHOLD, PATTERNS, PLACERS, GRAVEL, MODEL, EGYPT",

author = "{de Meijer}, {R J} and J Bosboom and B Cloin and I Katopodi and N Kitou and Koomans, {R L} and F Manso",

year = "2002",

month = dec,

doi = "10.1016/S0378-3839(02)00125-4",

language = "English",

volume = "47",

pages = "179--210",

journal = "Coastal Engineering",

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T1 - Gradation effects in sediment transport

AU - de Meijer, R J

AU - Bosboom, J

AU - Cloin, B

AU - Katopodi, I

AU - Kitou, N

AU - Koomans, R L

AU - Manso, F

PY - 2002/12

Y1 - 2002/12

N2 - To determine the effects of grain size and density gradation in oscillatory sheet-flow, experiments are conducted in an oscillating water tunnel. A formal derivation of a schematised transport model shows that the transport rates per sediment fraction can be determined with and without the assumption of an active layer. A technique that measures sediment composition from natural occurring radionuclides is used to determine the transport rates without that assumption of an active layer. The measurements on total sediment transport rates and suspended sediment concentrations show that effects of gradation are present. The effects of size gradation are mainly in the increased transport rates of the coarse fraction with respect to the uniform coarse material and the availability at the bed under similar conditions. The experiments on density graded sediments indicate that total mass-transport rates are larger than the mass-transport rates of quartz material, whilst the transport rates of the quartz fraction show that this fraction is not hindered by the availability at the bed. (C) 2002 Elsevier Science B.V. All rights reserved.

AB - To determine the effects of grain size and density gradation in oscillatory sheet-flow, experiments are conducted in an oscillating water tunnel. A formal derivation of a schematised transport model shows that the transport rates per sediment fraction can be determined with and without the assumption of an active layer. A technique that measures sediment composition from natural occurring radionuclides is used to determine the transport rates without that assumption of an active layer. The measurements on total sediment transport rates and suspended sediment concentrations show that effects of gradation are present. The effects of size gradation are mainly in the increased transport rates of the coarse fraction with respect to the uniform coarse material and the availability at the bed under similar conditions. The experiments on density graded sediments indicate that total mass-transport rates are larger than the mass-transport rates of quartz material, whilst the transport rates of the quartz fraction show that this fraction is not hindered by the availability at the bed. (C) 2002 Elsevier Science B.V. All rights reserved.

KW - size gradation

KW - density gradation

KW - wave-flume experiments

KW - sediment transport rates

KW - bedload

KW - suspended sediment concentrations

KW - sediment characterisation

KW - heavy minerals

KW - natural radioactivity

KW - Medusa

KW - HEAVY MINERALS

KW - NILE-DELTA

KW - ENTRAINMENT

KW - THRESHOLD

KW - PATTERNS

KW - PLACERS

KW - GRAVEL

KW - MODEL

KW - EGYPT

U2 - 10.1016/S0378-3839(02)00125-4

DO - 10.1016/S0378-3839(02)00125-4

M3 - Article

SN - 0378-3839

VL - 47

SP - 179

EP - 210

JO - Coastal Engineering

JF - Coastal Engineering

IS - 2

M1 - PII S0378-3839(02)00125-4

ER -

Gradation effects in sediment transport

Abstract

Keywords

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