Turbulence in River and Maritime Hydraulics

Understanding of the role of turbulence in controlling transport processes is of paramount importance for the preservation and protection of aquatic ecosystems, the minimization of the deleterious consequences of anthropogenic activity, and the successful sustainable development of river and maritim...

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Glavni autori: Davies, Peter A., Termini, Donatella, Mossa, Michele
Format: Online
Jezik:engleski
Izdano: MDPI - Multidisciplinary Digital Publishing Institute 2021
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author Davies, Peter A.
Termini, Donatella
Mossa, Michele
author_browse Davies, Peter A.
Mossa, Michele
Termini, Donatella
author_facet Davies, Peter A.
Termini, Donatella
Mossa, Michele
author_sort Davies, Peter A.
collection Directory of Open Access Books
description Understanding of the role of turbulence in controlling transport processes is of paramount importance for the preservation and protection of aquatic ecosystems, the minimization of the deleterious consequences of anthropogenic activity, and the successful sustainable development of river and maritime areas. In this context, the present Special Issue collects 15 papers which provide a representation of the present understanding of turbulent processes and their effects in river and maritime environments. The presented collection of papers is not exhaustive, but it highlights the key priority areas and knowledge gaps in this field of research. The published papers present the state-of-the-art knowledge of complex environmental flows which are useful for researchers and practitioners. The paper contents are an overview of some recent topics of research and an exposure of the current and future challenges associated with these topics.
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language eng
publishDate 2021
publishDateRange 2021
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publisher MDPI - Multidisciplinary Digital Publishing Institute
publisherStr MDPI - Multidisciplinary Digital Publishing Institute
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spelling doab-20.500.12854ir-614052024-04-11T15:10:16Z Turbulence in River and Maritime Hydraulics Davies, Peter A. Termini, Donatella Mossa, Michele TA1-2040 T1-995 inclined negatively buoyant jets flow mixing Kelvin–Helmholtz flow-through system mixing regular waves vegetation patch turbulence invariants junction angle gravel-bed rivers spatial analysis spectral model coastal lagoon roughness MIKE 21 FM (HD) billow dissipation river mouth waves advection wave–current interaction plunging breaking waves turbulence flow deflection zone smoothed particle hydrodynamics models numerical modelling physical modelling surface waves lobe dilution numerical model channel confluences prediction meanders CFD bedrock canyon MIKE 3 FM (HD & SVF diffusion dense jet sub-grid turbulence flow separation zone breaking waves <i>Spartina maritima</i> jets maritime areas flow retardation zone seabed friction sea discharges secondary motion ADCP cleft submerged ratio laboratory experiments wake region eddy viscosity bottom friction casting technique turbulent jet tidal inlets rivers nonlinear shallow water equations vorticity hydrodynamic model flow resistance PANORMUS spectral dissipation TR) macrovortices turbulent processes velocity trajectory flexible vegetation energy dissipation gravity current bed shear stress current flow drag coefficient residence time wave attenuation thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology Understanding of the role of turbulence in controlling transport processes is of paramount importance for the preservation and protection of aquatic ecosystems, the minimization of the deleterious consequences of anthropogenic activity, and the successful sustainable development of river and maritime areas. In this context, the present Special Issue collects 15 papers which provide a representation of the present understanding of turbulent processes and their effects in river and maritime environments. The presented collection of papers is not exhaustive, but it highlights the key priority areas and knowledge gaps in this field of research. The published papers present the state-of-the-art knowledge of complex environmental flows which are useful for researchers and practitioners. The paper contents are an overview of some recent topics of research and an exposure of the current and future challenges associated with these topics. 2021-02-12T06:42:36Z 2021-02-12T06:42:36Z 2019-03-21 15:50:41 2019 book 32594 9783038975946 https://directory.doabooks.org/handle/20.500.12854/61405 eng image/jpeg Attribution-NonCommercial-NoDerivatives 4.0 International https://mdpi.com/books/pdfview/book/1163 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-03897-595-3 10.3390/books978-3-03897-595-3 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783038975946 296 open access
spellingShingle TA1-2040
T1-995
inclined negatively buoyant jets
flow mixing
Kelvin–Helmholtz
flow-through system
mixing
regular waves
vegetation patch
turbulence invariants
junction angle
gravel-bed rivers
spatial analysis
spectral model
coastal lagoon
roughness
MIKE 21 FM (HD)
billow
dissipation
river mouth
waves
advection
wave–current interaction
plunging breaking waves
turbulence
flow deflection zone
smoothed particle hydrodynamics models
numerical modelling
physical modelling
surface waves
lobe
dilution
numerical model
channel confluences
prediction
meanders
CFD
bedrock canyon
MIKE 3 FM (HD &
SVF
diffusion
dense jet
sub-grid turbulence
flow separation zone
breaking waves
<i>Spartina maritima</i>
jets
maritime areas
flow retardation zone
seabed friction
sea discharges
secondary motion
ADCP
cleft
submerged ratio
laboratory experiments
wake region
eddy viscosity
bottom friction
casting technique
turbulent jet
tidal inlets
rivers
nonlinear shallow water equations
vorticity
hydrodynamic model
flow resistance
PANORMUS
spectral dissipation
TR)
macrovortices
turbulent processes
velocity
trajectory
flexible vegetation
energy dissipation
gravity current
bed shear stress
current flow
drag coefficient
residence time
wave attenuation
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
Davies, Peter A.
Termini, Donatella
Mossa, Michele
Turbulence in River and Maritime Hydraulics
title Turbulence in River and Maritime Hydraulics
title_full Turbulence in River and Maritime Hydraulics
title_fullStr Turbulence in River and Maritime Hydraulics
title_full_unstemmed Turbulence in River and Maritime Hydraulics
title_short Turbulence in River and Maritime Hydraulics
title_sort turbulence in river and maritime hydraulics
topic TA1-2040
T1-995
inclined negatively buoyant jets
flow mixing
Kelvin–Helmholtz
flow-through system
mixing
regular waves
vegetation patch
turbulence invariants
junction angle
gravel-bed rivers
spatial analysis
spectral model
coastal lagoon
roughness
MIKE 21 FM (HD)
billow
dissipation
river mouth
waves
advection
wave–current interaction
plunging breaking waves
turbulence
flow deflection zone
smoothed particle hydrodynamics models
numerical modelling
physical modelling
surface waves
lobe
dilution
numerical model
channel confluences
prediction
meanders
CFD
bedrock canyon
MIKE 3 FM (HD &
SVF
diffusion
dense jet
sub-grid turbulence
flow separation zone
breaking waves
<i>Spartina maritima</i>
jets
maritime areas
flow retardation zone
seabed friction
sea discharges
secondary motion
ADCP
cleft
submerged ratio
laboratory experiments
wake region
eddy viscosity
bottom friction
casting technique
turbulent jet
tidal inlets
rivers
nonlinear shallow water equations
vorticity
hydrodynamic model
flow resistance
PANORMUS
spectral dissipation
TR)
macrovortices
turbulent processes
velocity
trajectory
flexible vegetation
energy dissipation
gravity current
bed shear stress
current flow
drag coefficient
residence time
wave attenuation
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
topic_facet TA1-2040
T1-995
inclined negatively buoyant jets
flow mixing
Kelvin–Helmholtz
flow-through system
mixing
regular waves
vegetation patch
turbulence invariants
junction angle
gravel-bed rivers
spatial analysis
spectral model
coastal lagoon
roughness
MIKE 21 FM (HD)
billow
dissipation
river mouth
waves
advection
wave–current interaction
plunging breaking waves
turbulence
flow deflection zone
smoothed particle hydrodynamics models
numerical modelling
physical modelling
surface waves
lobe
dilution
numerical model
channel confluences
prediction
meanders
CFD
bedrock canyon
MIKE 3 FM (HD &
SVF
diffusion
dense jet
sub-grid turbulence
flow separation zone
breaking waves
<i>Spartina maritima</i>
jets
maritime areas
flow retardation zone
seabed friction
sea discharges
secondary motion
ADCP
cleft
submerged ratio
laboratory experiments
wake region
eddy viscosity
bottom friction
casting technique
turbulent jet
tidal inlets
rivers
nonlinear shallow water equations
vorticity
hydrodynamic model
flow resistance
PANORMUS
spectral dissipation
TR)
macrovortices
turbulent processes
velocity
trajectory
flexible vegetation
energy dissipation
gravity current
bed shear stress
current flow
drag coefficient
residence time
wave attenuation
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
url 32594
work_keys_str_mv AT daviespetera turbulenceinriverandmaritimehydraulics
AT terminidonatella turbulenceinriverandmaritimehydraulics
AT mossamichele turbulenceinriverandmaritimehydraulics