3D CFD simulations of trailing suction hopper dredger plume mixing: Comparison with field measurements

A 3D computational fluid dynamics (CFD) model is used to simulate mixing of an overflow plume within 400 m from a trailing suction hopper dredger (TSHD). The simulations are compared with new field measurements. It is the first time simulations of overflow dredging plumes are compared in such detail...

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Published in:Marine pollution bulletin Vol. 88; no. 1-2; pp. 34 - 46
Main Authors: de Wit, Lynyrd, Talmon, A.M., van Rhee, C.
Format: Journal Article
Language:English
Published: Kidlington Elsevier 15.11.2014
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
Applied ecology
Biological and medical sciences
Computational fluid dynamics
Computer Simulation
Dredging
Ecotoxicology, biological effects of pollution
Environment
environmental impact
fluid mechanics
Flux
Fundamental and applied biological sciences. Psychology
Geologic Sediments
Hydrodynamics
Imaging, Three-Dimensional
Marine
Marine and brackish environment
Marine Biology
Mathematical models
mixing
Models, Theoretical
Plumes
Sea water ecosystems
Sedimentation
Suction
suspended sediment
Synecology
Three dimensional
Trailing suction dredgers
turbidity
water pollution
Marine environment
Sediment
Field measurements
Environment impact
Turbulent plume mixing
Turbidity
Environmental factor
Dredging
Plume
Sediments
Environmental impact
Turbulent mixing
ISSN:0025-326X, 1879-3363, 1879-3363
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Abstract A 3D computational fluid dynamics (CFD) model is used to simulate mixing of an overflow plume within 400 m from a trailing suction hopper dredger (TSHD). The simulations are compared with new field measurements. It is the first time simulations of overflow dredging plumes are compared in such detail to field measurements this close to a TSHD. Seven cases with a large variety in overflow flux and plume characteristics are used. Measured maximum suspended sediment concentrations (SSC) vary between 30 and 500 mg/l and fluxes vary between 0.7% and 20% of the total overflow flux; the CFD model has, subject to the limitations of the field data, been shown to reproduce this in a satisfactory way. The model gives better understanding of important near field processes, which helps to assess the frequency, duration and intensity of stresses like turbidity and sedimentation needed to find the environmental impact of dredging projects.
AbstractList A 3D computational fluid dynamics (CFD) model is used to simulate mixing of an overflow plume within 400m from a trailing suction hopper dredger (TSHD). The simulations are compared with new field measurements. It is the first time simulations of overflow dredging plumes are compared in such detail to field measurements this close to a TSHD. Seven cases with a large variety in overflow flux and plume characteristics are used. Measured maximum suspended sediment concentrations (SSC) vary between 30 and 500mg/l and fluxes vary between 0.7% and 20% of the total overflow flux; the CFD model has, subject to the limitations of the field data, been shown to reproduce this in a satisfactory way. The model gives better understanding of important near field processes, which helps to assess the frequency, duration and intensity of stresses like turbidity and sedimentation needed to find the environmental impact of dredging projects.
A 3D computational fluid dynamics (CFD) model is used to simulate mixing of an overflow plume within 400 m from a trailing suction hopper dredger (TSHD). The simulations are compared with new field measurements. It is the first time simulations of overflow dredging plumes are compared in such detail to field measurements this close to a TSHD. Seven cases with a large variety in overflow flux and plume characteristics are used. Measured maximum suspended sediment concentrations (SSC) vary between 30 and 500 mg/l and fluxes vary between 0.7% and 20% of the total overflow flux; the CFD model has, subject to the limitations of the field data, been shown to reproduce this in a satisfactory way. The model gives better understanding of important near field processes, which helps to assess the frequency, duration and intensity of stresses like turbidity and sedimentation needed to find the environmental impact of dredging projects.A 3D computational fluid dynamics (CFD) model is used to simulate mixing of an overflow plume within 400 m from a trailing suction hopper dredger (TSHD). The simulations are compared with new field measurements. It is the first time simulations of overflow dredging plumes are compared in such detail to field measurements this close to a TSHD. Seven cases with a large variety in overflow flux and plume characteristics are used. Measured maximum suspended sediment concentrations (SSC) vary between 30 and 500 mg/l and fluxes vary between 0.7% and 20% of the total overflow flux; the CFD model has, subject to the limitations of the field data, been shown to reproduce this in a satisfactory way. The model gives better understanding of important near field processes, which helps to assess the frequency, duration and intensity of stresses like turbidity and sedimentation needed to find the environmental impact of dredging projects.
A 3D computational fluid dynamics (CFD) model is used to simulate mixing of an overflow plume within 400 m from a trailing suction hopper dredger (TSHD). The simulations are compared with new field measurements. It is the first time simulations of overflow dredging plumes are compared in such detail to field measurements this close to a TSHD. Seven cases with a large variety in overflow flux and plume characteristics are used. Measured maximum suspended sediment concentrations (SSC) vary between 30 and 500 mg/l and fluxes vary between 0.7% and 20% of the total overflow flux; the CFD model has, subject to the limitations of the field data, been shown to reproduce this in a satisfactory way. The model gives better understanding of important near field processes, which helps to assess the frequency, duration and intensity of stresses like turbidity and sedimentation needed to find the environmental impact of dredging projects.
Author Talmon, A.M.
de Wit, Lynyrd
van Rhee, C.
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Issue 1-2
Keywords Marine environment
Sediment
Field measurements
Environment impact
Turbulent plume mixing
Turbidity
Environmental factor
Dredging
Plume
Sediments
Environmental impact
Turbulent mixing
Language English
License CC BY 4.0
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Snippet A 3D computational fluid dynamics (CFD) model is used to simulate mixing of an overflow plume within 400 m from a trailing suction hopper dredger (TSHD). The...
A 3D computational fluid dynamics (CFD) model is used to simulate mixing of an overflow plume within 400m from a trailing suction hopper dredger (TSHD). The...
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SubjectTerms Animal and plant ecology
Animal, plant and microbial ecology
Applied ecology
Biological and medical sciences
Computational fluid dynamics
Computer Simulation
Dredging
Ecotoxicology, biological effects of pollution
Environment
environmental impact
fluid mechanics
Flux
Fundamental and applied biological sciences. Psychology
Geologic Sediments
Hydrodynamics
Imaging, Three-Dimensional
Marine
Marine and brackish environment
Marine Biology
Mathematical models
mixing
Models, Theoretical
Plumes
Sea water ecosystems
Sedimentation
Suction
suspended sediment
Synecology
Three dimensional
Trailing suction dredgers
turbidity
water pollution
Title 3D CFD simulations of trailing suction hopper dredger plume mixing: Comparison with field measurements
URI https://www.ncbi.nlm.nih.gov/pubmed/25301057
https://www.proquest.com/docview/1629976235
https://www.proquest.com/docview/1647004149
https://www.proquest.com/docview/1647005563
https://www.proquest.com/docview/1660066801
https://www.proquest.com/docview/2000204790
Volume 88
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