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Recent Advances in Fluid Mechanics: Feature Papers, 2022
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This Special Issue is a second collection of top-quality papers from some of the Editorial Board Members of Fluids, Guest Editors, and leading researchers, discussing new knowledge or new cutting-edge developments in all aspects of fluid mechanics. Research in turbulence continues to be one of the active areas; other papers focus on mixing, multiphase flows and porous media, slow (creeping) flows, potential flows, non-Newtonian fluids, fluid–structure interaction, and numerical methods.
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Keywords
- 1-d moving interface
- acoustic simulations
- advection–diffusion process
- algebraic transition model
- area
- Bioreactor
- bubble
- bubble growth
- cardiovascular flow
- cavitating simulations
- CFD
- CFD modelling
- CFD simulation
- complex viscoelastic fluids
- compression
- computational fluid dynamics
- computational fluid dynamics (CFD)
- concentrated solar energy
- confined geometry
- conservation of acceleration
- convection in a porous medium
- convective flows
- critical pressure
- delayed detached-eddy simulation
- diffusion process
- dilation
- Discontinuous Galerkin
- discrete mechanics
- double-diffusive convection
- drag force
- drag resistance
- expansion
- Fermentation
- finite volume method
- flow
- flow control
- flow regimes
- fluid inertial effects
- fractional dynamics
- gas-phase pyrolysis
- gas-solid flow
- gas–liquid flow
- Helmholtz–Hodge decomposition
- heterogeneity
- hybrid RANS-LES methods
- hybrid reactor
- Hydrodynamics
- hydrogen production
- hydrothermal wave
- inertial curvature
- instabilities
- interfaces
- jet fermenter
- jet noise
- kLa
- laplace pressure
- Large Eddy Simulation (LES)
- large-eddy simulation
- linear stability analysis
- long-wave approximation
- low load operation
- Marangoni convection
- mass transfer coefficient
- mass transport
- membrane
- methane cracking
- microparticle dynamics
- mitral valve
- modal expansion
- model verification
- moderate Reynolds number
- multi-phase flow
- multiphase flows
- n/a
- NACA0012
- numerical modeling
- oscillating foil
- oscillations
- particle Reynolds number
- patterning behavior
- peristaltic flow
- phase pinning
- phase trapping
- PIV
- reduced frequency
- regularized Bingham fluid
- regularized Casson fluid
- Reynolds number
- Reynolds-averaged Navier–Stokes
- Reynolds-averaged Navier–Stokes (RANS) equations
- rheology
- rotating vortex rope
- roughness
- scale-resolving simulations
- scale-up
- SD7003
- single-mode solutions
- smooth particle hydrodynamics
- solid concentration
- solid particles
- Spalart–Allmaras
- steam turbine
- supersaturated liquids
- surface excess
- surface roughness
- Synchronization
- synchronous pressure fluctuations
- Synthetic Jets
- thema EDItEUR::P Mathematics and Science
- thema EDItEUR::P Mathematics and Science::PH Physics
- thema EDItEUR::P Mathematics and Science::PH Physics::PHD Classical mechanics::PHDF Physics: Fluid mechanics
- thermometry method
- thrust efficiency
- time-dependent Stokes equations
- transit time
- turbulence cascade
- Turbulent Flows
- two-phase media
- unusual spreading
- valvular asymmetry
- ventilation power
- vortex bursting
- vortex stretching
- wall model
Links
DOI: 10.3390/books978-3-7258-1292-9Editions