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1. Full Text High-Reynolds number wall turbulence
by Smits, Alexander J and McKeon, Beverley J and Marusic, Ivan
Annual Review of Fluid Mechanics, ISSN 0066-4189, 01/2011, Volume 43, Issue 1, pp. 353 - 375
We review wall-bounded turbulent flows, particularly high-Reynolds number, zero-pressure gradient boundary layers, and fully developed pipe and channel flows.... 
pipe flow | boundary layers | turbulence structure | coherent motions | channel flow | ATTACHED-EDDY HYPOTHESIS | SHEAR FLOWS | ZERO-PRESSURE-GRADIENT | PHYSICS, FLUIDS & PLASMAS | DEVELOPED PIPE-FLOW | LARGE-SCALE MOTIONS | ATMOSPHERIC BOUNDARY-LAYER | TAYLORS HYPOTHESIS | DIRECT NUMERICAL-SIMULATION | PARTICLE IMAGE VELOCIMETRY | MECHANICS | Mechanical properties | Turbulence | Research | Analysis | Reynolds number | Boundary layer | Turbulent flow | Law | Fluid dynamics | Asymptotic properties | Fluid flow | Walls
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2. Full Text High-Reynolds Number Taylor-Couette Turbulence
by Grossmann, Siegfried and Lohse, Detlef and Sun, Chao
Annual Review of Fluid Mechanics, ISSN 0066-4189, 1/2016, Volume 48, Issue 1, pp. 53 - 80
Taylor-Couette flow, the flow between two coaxial co- or counter-rotating cylinders, is one of the paradigmatic systems in the physics of fluids. The... 
rotating flow | fully developed turbulence | quasi-Keplerian flows | transport properties | laminar and turbulent boundary layers | METIS-314768 | IR-99585 | Fully developed turbulence | Quasi-Keplerian flows | Rotating flow | Transport properties | Laminar and turbulent boundary layers | EIGENVALUE PROBLEM | ANGULAR-MOMENTUM TRANSPORT | PHYSICS, FLUIDS & PLASMAS | CONCENTRIC CYLINDERS | ROTATING CYLINDERS | TRANSIENT GROWTH | FLOW | DIRECT NUMERICAL-SIMULATION | MECHANICS | THERMAL-CONVECTION | ENERGY-DISSIPATION | RAYLEIGH-BENARD CONVECTION | Usage | Turbulence | Observations | Reynolds number | Boundary layer | Torque | Turbulent flow | Computational fluid dynamics | Fluid flow | Mathematical models | Angular velocity | Cylinders | Physics - Fluid Dynamics
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3. Aerodynamics of low Reynolds number flyers
: Wei Shyy ... [et al.]
by Shyy, W. (Wei)
2008, Cambridge aerospace series, ISBN 0521882788, Volume 22, xviii, 177 p., [16] p. of plates
Low Reynolds number aerodynamics is important to a number of natural and man-made flyers. Birds, bats, and insects have been of interest to biologists for... 
Aerodynamics
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4. Full Text Unit Reynolds number, Mach number and pressure gradient effects on laminar–turbulent transition in two-dimensional boundary layers
by Risius, Steffen and Costantini, Marco and Koch, Stefan and Hein, Stefan and Klein, Christian
Experiments in Fluids, ISSN 0723-4864, 5/2018, Volume 59, Issue 5, pp. 1 - 29
The influence of unit Reynolds number ($$Re_1=17.5\times 10^{6}$$ Re1=17.5×106 –$$80\times 10^{6}\,\text {m}^{-1}$$ 80×106m-1 ), Mach number ($$M= 0.35$$... 
Engineering | Engineering Fluid Dynamics | Fluid- and Aerodynamics | Engineering Thermodynamics, Heat and Mass Transfer | MECHANICS | DISTURBANCES | LEADING-EDGE RECEPTIVITY | STABILITY | PREDICTIONS | SOUND | FORWARD-FACING STEPS | FLOW | ENGINEERING, MECHANICAL | Analysis | Boundary layer
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5. Full Text Experimental analysis of low-Reynolds number free jets: Evolution along the jet centerline and Reynolds number effects
by Todde, Valentino and Spazzini, Pier Giorgio and Sandberg, Mats and Ämnesavdelningen för inomhusmiljö and Institutionen för teknik och byggd miljö and Högskolan i Gävle
Experiments in Fluids, ISSN 0723-4864, 08/2009, Volume 47, Issue 2, pp. 279 - 294
The present paper analyzes the features of a low-Reynolds number free submerged jet with special regard to statistical quantities on the jet centerline.... 
Fluid dynamics | Turbulence | Analysis | Fluid mechanics | Strömningsmekanik och akustik | Teknik och teknologier | Maskinteknik | Fluid Mechanics and Acoustics | Reynolds number; Spectrum analysis; Spectrum analyzers | TEKNIKVETENSKAP | Engineering and Technology | Engineering mechanics | Strömningsmekanik | Teknisk mekanik | Mechanical Engineering | TECHNOLOGY
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6. Low Reynolds number flow heat exchangers
: advanced study institute book
by Kakaç, S and Shah, R. K and Bergles, A. E and North Atlantic Treaty Organization. Scientific Affairs Division
1983, ISBN 0891162542, viii, 1016
Reynolds number | Heat exchangers
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7. Low Reynolds number hydrodynamics
: With special applications to particulate media
by Happel, John and Brenner, Howard
1973, 2d rev. ed. -, ISBN 9001371159, 553
Viscosity | Hydrodynamics | Particles
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8. Full Text Experimental study of the effect of solid volume fraction and Reynolds number on heat transfer coefficient and pressure drop of CuO–Water nanofluid
by Zarringhalam, Majid and Karimipour, Arash and Toghraie, Davood
Experimental Thermal and Fluid Science, ISSN 0894-1777, 09/2016, Volume 76, pp. 342 - 351
This study presents an experimental study of the effect of solid volume fraction and Reynolds number on heat transfer coefficient and pressure drop of... 
Solid volume fraction | CuO–Water nanofluid | Heat transfer coefficient | Pressure drop | CuO-Water nanofluid | TRANSFER ENHANCEMENT | THERMOPHYSICAL PROPERTIES | PHYSICS, FLUIDS & PLASMAS | PERFORMANCE | CIRCULAR TUBE | ENGINEERING, MECHANICAL | REGION | THERMODYNAMICS | TURBULENT-FLOW | Copper oxide | Cuprite | Turbulence | Turbulent flow | Fluid dynamics | Volume fraction | Reynolds number | HEAT TRANSFER | Nanostructure | COPPER OXIDE | MICROSTRUCTURES | FLUIDITY | FLUID FLOW | Heat transfer coefficients | WATER
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9. Full Text Kelvin–Helmholtz billows above Richardson number
by Parker, J. P and Caulfield, C. P and Kerswell, R. R
Journal of Fluid Mechanics, ISSN 0022-1120, 11/2019, Volume 879
We study the dynamical system of a two-dimensional, forced, stratified mixing layer at finite Reynolds number $Re$, and Prandtl number $Pr=1$. We consider a... 
Amplitude | Aquatic reptiles | Amplitudes | Fluid dynamics | Velocity profiles | Reynolds number | Fluid flow | Billows | Bifurcations | Kelvin-helmholtz instability | Velocity distribution | Dynamical systems | Velocity | Equations | Flow stability | Prandtl number | Embedded systems | Dynamics | Profiles | Dynamic stability | Stratification | Richardson number
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10. Full Text Rotation of a low-Reynolds-number watermill: Theory and simulations
by Zhu, Lailai and Stone, Howard A and Skolan för teknikvetenskap (SCI) and Mekanik and KTH
Journal of Fluid Mechanics, ISSN 0022-1120, 08/2018, Volume 849, pp. 57 - 75
Recent experiments have demonstrated that small-scale rotary devices installed in a microfluidic channel can be driven passively by the underlying flow alone... 
MEMS/NEMS | microfluidics | slow-Reynolds-number flows | WALL | MECHANICS | BOUNDARIES | PHYSICS, FLUIDS & PLASMAS | low-Reynolds-number flows | Stability | Computer simulation | Computational fluid dynamics | Theory | Reynolds number | Fluid flow | Hydrodynamics | Rods | Stability analysis | Orientation | Rotation | Velocity | Equilibrium | Numerical analysis | Theories | Dependence | Mathematical models | Interactions | Configurations | Electric fields | Microfluidics | Framework | Symmetry | Fluid Mechanics and Acoustics | Engineering and Technology | Strömningsmekanik och akustik | Teknik och teknologier | Mechanical Engineering | Maskinteknik
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11. Full Text Numerical investigation of the vortex-induced vibration of an elastically mounted circular cylinder at high Reynolds number (Re = 104) and low mass ratio using the RANS code
by Khan, Niaz Bahadur and Ibrahim, Zainah and Nguyen, Linh Tuan The and Javed, Muhammad Faisal and Jameel, Mohammed
PLoS ONE, ISSN 1932-6203, 10/2017, Volume 12, Issue 10, p. e0185832
This study numerically investigates the vortex-induced vibration (VIV) of an elastically mounted rigid cylinder by using Reynolds-averaged Navier-Stokes (RANS)... 
OSCILLATING CYLINDER | LARGE-EDDY SIMULATION | MULTIDISCIPLINARY SCIENCES | DYNAMICS | SMOOTH | TURBULENT | VERY-LOW MASS | FLOW | Models, Theoretical | Elasticity | Vibration | Numerical analysis | Fluid dynamics | Analysis | Investigations | Turbulent flow | Direct numerical simulation | Fluid flow | Two dimensional models | Detached eddy simulation | Research | Reynolds averaged Navier-Stokes method | Large eddy simulation | Petroleum production | Mathematical models | Civil engineering | Fluid mechanics | Turbulence | Computer simulation | Computational fluid dynamics | Reynolds number | Fluid | Model accuracy | Circular cylinders | Studies | Researchers | Simulation | Vortices | Turbulence models | Computer applications | Software | Cost analysis | High Reynolds number | Three dimensional models | Navier-Stokes equations
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12. Full Text Low-Reynolds-number swimming in a capillary tube
by Zhu, L and Lauga, E and Brandt, L and Centra and Stabilitet, Transition, Kontroll and Fysiokemisk strömningsmekanik and Linné Flow Center, FLOW and Skolan för teknikvetenskap (SCI) and Mekanik and KTH
Journal of Fluid Mechanics, ISSN 0022-1120, 05/2013, Volume 726, pp. 285 - 311
We use the boundary element method to study the low-Reynolds-number locomotion of a spherical model microorganism in a circular tube. The swimmer propels... 
low-Reynolds-number flows | swimming/flying | boundary integral methods | biological fluid dynamics | microorganism dynamics | HYDRODYNAMIC INTERACTION | BACTERIA | PHYSICS, FLUIDS & PLASMAS | MODEL MICROORGANISMS | SOLID BOUNDARIES | MECHANICS | MOTION | VISCOUS ENVIRONMENTS | VISCOELASTIC FLUIDS | MOVEMENT | PROPULSION | MOTILITY | Teknik och teknologier | Engineering and Technology | Mechanical Engineering | Maskinteknik
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13. Effect of Reynolds number and Mach number on flow angularity probe sensitivity
by Smith, Leigh Ann and Adcock, Jerry B and Langley Research Center
1986, 25
Pressure sensors | Reynolds number | Transonic wind tunnels | Mach number
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14. Full Text Reynolds-and Mach-number effects in canonical shock-turbulence interaction
by Larsson, Johan and Bermejo-Moreno, Ivan and Lele, Sanjiva K
Journal of Fluid Mechanics, ISSN 0022-1120, 02/2013, Volume 717, pp. 293 - 321
The interaction between isotropic turbulence and a normal shock wave is investigated through a series of direct numerical simulations at different Reynolds... 
compressible turbulence | turbulent flows | shock waves | DIRECT NUMERICAL-SIMULATION | WAVE | MECHANICS | PHYSICS, FLUIDS & PLASMAS | ISOTROPIC TURBULENCE | FLOW | SCHEMES | Shock waves | Fluid mechanics | Flow velocity | Turbulent flow | Reynolds number
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15. Full Text Dynamic Coupling at Low Reynolds Number
by Dey, Krishna Kanti
Angewandte Chemie International Edition, ISSN 1433-7851, 02/2019, Volume 58, Issue 8, pp. 2208 - 2228
Collective and emergent behaviors of active colloids provide useful insights into the statistical physics of out‐of‐equilibrium systems. Colloidal suspensions... 
active systems | coupling | diffusion | heterogeneous catalysis | nanomotors | COLLECTIVE DYNAMICS | PHYSICAL-PROPERTIES | FLUID-DYNAMICS | ENHANCED DIFFUSION | PARTICLE DIFFUSION | SELF-ORGANIZATION | CHEMISTRY, MULTIDISCIPLINARY | ACTIVE PARTICLES | PHASE-TRANSITION | NUCLEOCYTOPLASMIC TRANSPORT | COHERENT STRUCTURES | Heterogeneous catalysis | Coupling (molecular) | Catalysts | Reynolds number | Colloids | Fluid flow | Coupling | Energy transduction | Energy transfer | Tracers
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