TY - BOOK ID - 145994829 TI - Engineering Fluid Dynamics 2019-2020 PY - 2021 PB - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - History of engineering & technology 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 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 UR - https://www.unicat.be/uniCat?func=search&query=sysid:145994829 AB - 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. ER -