We review wall-bounded turbulent flows, particularly high–Reynolds number, zero–pressure
gradient boundary layers, and fully developed pipe and channel flows. It is apparent that the …

Wall-bounded turbulent flows at high Reynolds numbers have become an increasingly
active area of research in recent years. Many challenges remain in theory, scaling, physical …

We revisit the grid-point requirement estimates in Choi and Moin [“Grid-point requirements
for large eddy simulation: Chapman's estimates revisited,” Phys. Fluids 24, 011702 (2012)] …

Direct numerical simulations (DNS) are performed to investigate the spatial evolution of flat-
plate zero-pressure-gradient turbulent boundary layers over long streamwise domains () …

Considerable discussion over the past few years has been devoted to the question of
whether the logarithmic region in wall turbulence is indeed universal. Here, we analyse …

Resolution requirements for large eddy simulation (LES), estimated by Chapman [AIAA J.
17, 1293 (1979)], are modified using accurate formulae for high Reynolds number boundary …

One-point statistics are presented for new direct simulations of the zero-pressure-gradient
turbulent boundary layer in the range Re θ= 2780–6680, matching channels and pipes at …

A nominally-zero-pressure-gradient incompressible boundary layer over a smooth flat plate
was simulated for a continuous momentum thickness Reynolds number range of 80≤ …

The reliable measurement of mean flow properties near walls and interfaces between
different fluids or fluid and gas phases is a very important task, as well as a challenging …

The overlap parameters for the logarithmic law are obtained for available turbulent pipe and
channel flow data using composite profiles fitted to the mean velocity. The composite profile …