Physics & Astronomy
turbulence
scaling
Reynolds number
high Reynolds number
dissipation
scalars
convection
Rayleigh number
intermittency
isotropic turbulence
turbulent flow
exponents
free convection
direct numerical simulation
fluids
turbulent mixing
Schmidt number
energy dissipation
helium
statistics
moments
vorticity
grids
cryogenics
probability density functions
shear flow
temperature
wakes
cascades
microbalances
homogeneous turbulence
fractals
aspect ratio
low Reynolds number
vortices
skewness
liquid helium
turbulent boundary layer
boxes
pipe flow
Nusselt number
simulation
containers
Prandtl number
multipliers
sun
turbulent wakes
viscosity
gradients
unity
Engineering & Materials Science
Turbulence
Reynolds number
Direct numerical simulation
Turbulent flow
Convection
Helium
Boundary layers
Fluids
Shear flow
Probability density function
Pipe flow
Temperature
Derivatives
Prandtl number
Hot Temperature
Experiments
Viscosity
Aspect ratio
Energy dissipation
Vortex flow
Channel flow
Pipe
Cryogenics
Fractal dimension
Circular cylinders
Fractals
Chaos theory
Statistics
Flow of fluids
Liquids
Shear stress
Momentum
Vorticity
Vortex shedding
Air
Water
Nusselt number
Dynamical systems
Computer simulation
Mathematics
Turbulence
Reynolds number
Structure-function
Convection
Turbulent Mixing
Fluctuations
Intermittency
Thermal Convection
Scaling
Direct numerical Simulation
Dissipation
Rayleigh number
Exponent
Scaling Exponent
Range of data
Rayleigh
Energy Dissipation
Cascade
Passive Scalar
Energy Spectrum
Turbulent Flow
Three-dimensional
Large Eddy Simulation
Increment
Experiment
Non-equilibrium
Reversal
Transition to Turbulence
Climate
Nonequilibrium Dynamics
Statistics
Anomalous Scaling