Matched open- and closed-channel DNS reveal that free-surface influence on turbulence is transported primarily through pressure and viscous terms with distinct near-surface scales and VLSM coupling.
Turbulence Statistics in Fully Developed Channel Flow at Low
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
fields
physics.flu-dyn 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Inner-scaled linear contribution to wall-pressure variance remains O(1) at high Reynolds numbers, based on collapse of measured factors and inverse decay of gradient variance in the inertial layer.
citing papers explorer
-
How is the free surface influence transported in turbulent open channel flows?
Matched open- and closed-channel DNS reveal that free-surface influence on turbulence is transported primarily through pressure and viscous terms with distinct near-surface scales and VLSM coupling.
-
An Inner-Scaled Linear Contribution to Wall-Pressure Variance at High Reynolds Number
Inner-scaled linear contribution to wall-pressure variance remains O(1) at high Reynolds numbers, based on collapse of measured factors and inverse decay of gradient variance in the inertial layer.