TY  - GEN
AU  - Hjertager,Bjørn
AU  - Hjertager,Bjørn
TI  - Engineering Fluid Dynamics 2019-2020
SN  - books978-3-0365-0215-1
PY  - 2021///
CY  - Basel, Switzerland
PB  - MDPI - Multidisciplinary Digital Publishing Institute
KW  - History of engineering & technology
KW  - bicssc
KW  - CFD
KW  - gap resonance
KW  - hydrodynamic forces
KW  - free surface waves
KW  - URANS
KW  - twin-box deck
KW  - aerodynamics
KW  - vortex shedding
KW  - splash lubrication
KW  - dynamic motion
KW  - gearbox
KW  - churning power losses
KW  - non-inertial coordinate system
KW  - ground roughness
KW  - hill shape
KW  - hill slope
KW  - large-eddy simulations
KW  - turbulent flow fields
KW  - turbulent structure
KW  - computational fluid dynamics (CFD)
KW  - large eddy simulations (LES)
KW  - 3D hill
KW  - canopy
KW  - flow fields
KW  - radiation
KW  - blocked-off-region procedure
KW  - heat recuperation
KW  - anisotropic scattering
KW  - mie particles
KW  - numerical simulation
KW  - horizontal face angle
KW  - energy dissipation rates
KW  - stepped spillway
KW  - ultra-low specific speed magnetic drive pump
KW  - orthogonal test
KW  - splitter blades
KW  - optimized design
KW  - pressure fluctuation
KW  - radial force
KW  - dilution
KW  - turbulent flame
KW  - premixed
KW  - OH
KW  - CH2O
KW  - planar laser-induced fluorescence
KW  - self-excited oscillation jet
KW  - organ-Helmholtz nozzle
KW  - pulse waterjet
KW  - pressure pulsation amplitude
KW  - WMLES
KW  - VLSMs
KW  - LSMs
KW  - turbulent boundary flow
KW  - roughness
KW  - surrogate model
KW  - deep neural network
KW  - multiphase flow
KW  - horizontal pipe
KW  - liquid holdup
KW  - pressure gradient
KW  - coherent structures
KW  - turbulent boundary layer
KW  - stability
KW  - pre-multiplied wind velocity spectrum
KW  - spatial correlation coefficient field
KW  - tunnel fires
KW  - jet fan speed
KW  - heat release rate
KW  - aspect ratio
KW  - smoke movement
KW  - visibility
KW  - smoke layer thickness
KW  - smoke stratification
KW  - orifice shape
KW  - vertical jet
KW  - velocity ratio
KW  - numerical investigation
KW  - hydraulic characteristics
KW  - impinging water jet
KW  - impinging height
KW  - numerical calculation
KW  - swirler
KW  - optimized
KW  - genetic algorithms
KW  - recirculation
KW  - combustion
KW  - experimental validation
KW  - welding spatter
KW  - distribution
KW  - shield arc metal welding
KW  - particle heat transfer
KW  - fire risk
KW  - sprinkler
KW  - fire dynamics simulator (FDS)
KW  - fire suppression
KW  - extinguishing coefficient
KW  - smoke logging
KW  - smoke spread
KW  - pipe insulation
KW  - fire growth rate index
KW  - scale factor
KW  - volume fraction
KW  - ignition heat source
KW  - maximum heat release rate
KW  - time to reach maximum HRR (heat release rate)
KW  - control
KW  - cylinder
KW  - energy efficiency
KW  - clamping
KW  - pneumatics
KW  - unsteady RANS simulation
KW  - two-phase flow
KW  - riser-induced slug flow
KW  - LedaFlow
KW  - VOF-model
KW  - evacuation
KW  - interaction between smoke and evacuees
KW  - inner smoke force
KW  - modified BR-smoke model
KW  - twin H-rotor vertical-axis turbines
KW  - wake
KW  - instability
KW  - wavelet transform
KW  - computational fluid dynamics (CFD), multiphysics
KW  - heat transfer
KW  - thermoelectricity
KW  - automotive
KW  - traditional market
KW  - fire spread rate
KW  - radiant heat flux
KW  - separation distance
KW  - rotor stator interaction
KW  - boundary layer
KW  - secondary vortex
KW  - unsteady flow
KW  - submerged jet
KW  - climate change
KW  - renewable energy
KW  - wind power
KW  - accelerators
KW  - turbines
KW  - power extraction
KW  - Betz
KW  - freestream theory
KW  - hybrid simulation method
KW  - multi-fluid model
KW  - discrete element method, sedimentation, bed formation
KW  - PIV
KW  - shell-and-tube
KW  - shell side
KW  - tube bundle
KW  - heat exchanger
KW  - baffle
KW  - maldistribution
N1  - Open Access
N2  - 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
UR  - https://mdpi.com/books/pdfview/book/3424
UR  - https://directory.doabooks.org/handle/20.500.12854/68408
ER  -