Engineering Fluid Dynamics 2019-2020 

<br/><br/><br/>English[eng] 
<br/><br/><label>Subjects--Topical Terms: </label><br/>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