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Engineering Fluid Dynamics 2019-2020 : Volume 2



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Autore: Hjertager Bjørn Visualizza persona
Titolo: Engineering Fluid Dynamics 2019-2020 : Volume 2 Visualizza cluster
Pubblicazione: Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2021
Descrizione fisica: 1 electronic resource (202 p.)
Soggetto topico: History of engineering & technology
Soggetto non controllato: CFD
gap resonance
hydrodynamic forces
free surface waves
URANS
twin-box deck
aerodynamics
vortex shedding
splash lubrication
dynamic motion
gearbox
churning power losses
non-inertial coordinate system
ground roughness
hill shape
hill slope
large-eddy simulations
turbulent flow fields
turbulent structure
computational fluid dynamics (CFD)
large eddy simulations (LES)
3D hill
canopy
flow fields
radiation
blocked-off-region procedure
heat recuperation
anisotropic scattering
mie particles
numerical simulation
horizontal face angle
energy dissipation rates
stepped spillway
ultra-low specific speed magnetic drive pump
orthogonal test
splitter blades
optimized design
pressure fluctuation
radial force
dilution
turbulent flame
premixed
OH
CH2O
planar laser-induced fluorescence
self-excited oscillation jet
organ–Helmholtz nozzle
pulse waterjet
pressure pulsation amplitude
WMLES
VLSMs
LSMs
turbulent boundary flow
roughness
surrogate model
deep neural network
multiphase flow
horizontal pipe
liquid holdup
pressure gradient
coherent structures
turbulent boundary layer
stability
pre-multiplied wind velocity spectrum
spatial correlation coefficient field
tunnel fires
jet fan speed
heat release rate
aspect ratio
smoke movement
visibility
smoke layer thickness
smoke stratification
orifice shape
vertical jet
velocity ratio
numerical investigation
hydraulic characteristics
impinging water jet
impinging height
numerical calculation
swirler
optimized
genetic algorithms
recirculation
combustion
experimental validation
welding spatter
distribution
shield arc metal welding
particle heat transfer
fire risk
sprinkler
fire dynamics simulator (FDS)
fire suppression
extinguishing coefficient
smoke logging
smoke spread
pipe insulation
fire growth rate index
scale factor
volume fraction
ignition heat source
maximum heat release rate
time to reach maximum HRR (heat release rate)
control
cylinder
energy efficiency
clamping
pneumatics
unsteady RANS simulation
two-phase flow
riser-induced slug flow
LedaFlow
VOF-model
evacuation
interaction between smoke and evacuees
inner smoke force
modified BR-smoke model
twin H-rotor vertical-axis turbines
wake
instability
wavelet transform
computational fluid dynamics (CFD), multiphysics
heat transfer
thermoelectricity
automotive
traditional market
fire spread rate
radiant heat flux
separation distance
rotor stator interaction
boundary layer
secondary vortex
unsteady flow
submerged jet
climate change
renewable energy
wind power
accelerators
turbines
power extraction
Betz
freestream theory
hybrid simulation method
multi-fluid model
discrete element method, sedimentation, bed formation
PIV
shell-and-tube
shell side
tube bundle
heat exchanger
baffle
maldistribution
Persona (resp. second.): HjertagerBjørn
Sommario/riassunto: This book contains the successful submissions to a Special Issue of Energies entitled “Engineering Fluid Dynamics 2019–2020”. The topic of engineering fluid dynamics includes both experimental and computational studies. Of special interest were submissions from the fields of mechanical, chemical, marine, safety, and energy engineering. We welcomed original research articles and review articles. After one-and-a-half years, 59 papers were submitted and 31 were accepted for publication. The average processing time was about 41 days. The authors had the following geographical distribution: China (15); Korea (7); Japan (3); Norway (2); Sweden (2); Vietnam (2); Australia (1); Denmark (1); Germany (1); Mexico (1); Poland (1); Saudi Arabia (1); USA (1); Serbia (1). Papers covered a wide range of topics including analysis of free-surface waves, bridge girders, gear boxes, hills, radiation heat transfer, spillways, turbulent flames, pipe flow, open channels, jets, combustion chambers, welding, sprinkler, slug flow, turbines, thermoelectric power generation, airfoils, bed formation, fires in tunnels, shell-and-tube heat exchangers, and pumps.
Altri titoli varianti: Engineering Fluid Dynamics 2019-2020
Titolo autorizzato: Engineering Fluid Dynamics 2019-2020  Visualizza cluster
Formato: Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione: Inglese
Record Nr.: 9910557117703321
Lo trovi qui: Univ. Federico II
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