Some comments on turbulence
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Publication:4001219
DOI10.1063/1.858347zbMath0825.76365OpenAlexW2049052988MaRDI QIDQ4001219
Publication date: 26 September 1992
Published in: Physics of Fluids A: Fluid Dynamics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1063/1.858347
Related Items (25)
On modelling the Reynolds stress in the context of continuum mechanics ⋮ Description of inverse energy cascade in homogeneous isotropic turbulence using an eigenvalue method ⋮ The decay of turbulence generated by a class of multiscale grids ⋮ Basic analysis of some second moment closures. I: Incompressible isothermal turbulent flows ⋮ A new \(k\)-\(\varepsilon\) eddy viscosity model for high Reynolds number turbulent flows ⋮ On the unsteady behavior of turbulence models ⋮ Effects of helicity on dissipation in homogeneous box turbulence ⋮ Interscale dynamics and local isotropy in high Reynolds number turbulence within triadic interactions ⋮ Spectral non-equilibrium property in homogeneous isotropic turbulence and its implication in subgrid-scale modeling ⋮ Dynamics of direct large-small scale couplings in coherently forced turbulence: concurrent physical- and Fourier-space views ⋮ Statistical interpretation of the turbulent dissipation rate in wall-bounded flows ⋮ Spectral imbalance and the normalized dissipation rate of turbulence ⋮ Slow spectral transfer and energy cascades in isotropic turbulence ⋮ Turbulence theories and statistical closure approaches ⋮ High Schmidt number scalars in turbulence: Structure functions and Lagrangian theory ⋮ On the normalized turbulent energy dissipation rate ⋮ Non-equilibrium turbulence scalings and self-similarity in turbulent planar jets ⋮ Turbulent boundary layers: is the wall falling or merely wobbling? ⋮ An update on the energy dissipation rate in isotropic turbulence ⋮ On the role of vorticity stretching and strain self-amplification in the turbulence energy cascade ⋮ Hybrid RANS/LES modelling with an approximate renormalization group. I: Model development ⋮ The inertial subrange in turbulent pipe flow: centreline ⋮ A POSTERIORI TESTS OF ONE-EQUATION LES MODELING OF ROTATING TURBULENCE ⋮ Effects of multi-scale and regular grid geometries on decaying turbulence ⋮ Reassessment of the classical turbulence closures: the Leith diffusion model
Cites Work
- The effect of modeled drag reduction on the wall region
- Controlling homoclinic orbits
- Turbulence spectra from a tidal channel
- The dynamics of coherent structures in the wall region of a turbulent boundary layer
- Progress in the development of a Reynolds-stress turbulence closure
- Contributions to the Understanding of Large-Scale Coherent Structures in Developing Free Turbulent Shear Flows
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