The viscous sublayer in front of a wall-mounted cylinder

This paper presents some new measurements which have been made on a drag-reducing polymer solution in pipe flow. A novel type of laser dopplermeter, which has been developed by the author, is briefly described and the measurements which have been obtained are given. These results and their implications are then discussed in terms of conventional models for turbulent flow in a pipe. These suggest that the polymer has very little effect upon the turbulent core of the flow, but thickens and stabilizes the viscous sublayer. The turbulent intensity inside the sublayer is unchanged but, owing to its thickening, the velocity fluctuations just outside are greater. There is not a general suppression of turbulence within the sublayer although well inside the sublayer the spanwise velocity component is found to be reduced.

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Linking evaporative fluxes from bare soil across surface viscous sublayer with the Monin–Obukhov atmospheric flux-profile estimates

Journal of Hydrology ◽

10.1016/j.jhydrol.2015.04.019 ◽

2015 ◽

Vol 525 ◽

pp. 684-693 ◽

Cited By ~ 21

Author(s):

Erfan Haghighi ◽

Dani Or

Keyword(s):

Viscous Sublayer ◽

Bare Soil ◽

Atmospheric Flux ◽

Flux Profile

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‘Inactive’ motion and pressure fluctuations in turbulent boundary layers

Journal of Fluid Mechanics ◽

10.1017/s0022112067001417 ◽

1967 ◽

Vol 30 (2) ◽

pp. 241-258 ◽

Cited By ~ 261

Author(s):

P. Bradshaw

Keyword(s):

Boundary Layer ◽

Outer Layer ◽

Pressure Fluctuations ◽

Turbulent Energy ◽

Viscous Sublayer ◽

Wave Number ◽

Noticeable Effect ◽

Frequency Spectra ◽

Active Motion ◽

Order Of Magnitude

Townsend's (1961) hypothesis that the turbulent motion in the inner region of a boundary layer consists of (i) an ‘active’ part which produces the shear stress τ and whose statistical properties are universal functions of τ and y, and (ii) an ‘inactive’ and effectively irrotational part determined by the turbulence in the outer layer, is supported in the present paper by measurements of frequency spectra in a strongly retarded boundary layer, in which the ‘inactive’ motion is particularly intense. The only noticeable effect of the inactive motion is an increased dissipation of kinetic energy into heat in the viscous sublayer, supplied by turbulent energy diffusion from the outer layer towards the surface. The required diffusion is of the right order of magnitude to explain the non-universal values of the triple products measured near the surface, which can therefore be reconciled with universality of the ‘active’ motion.Dimensional analysis shows that the contribution of the ‘active’ inner layer motion to the one-dimensional wave-number spectrum of the surface pressure fluctuations varies as τ2w/k1 up to a wave-number inversely proportional to the thickness of the viscous sublayer. This result is strongly supported by the recent measurements of Hodgson (1967), made with a much smaller ratio of microphone diameter to boundary-layer thickness than has been achieved previously. The disagreement of the result with most other measurements is attributed to inadequate transducer resolution in the other experiments.

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CHARACTERISTICS OF VISCOUS SUBLAYER AND BUFFER LAYER OF A 2-D OPEN CHANNEL FLOW

PROCEEDINGS OF HYDRAULIC ENGINEERING ◽

10.2208/prohe.42.847 ◽

1998 ◽

Vol 42 ◽

pp. 847-852

Author(s):

Kouki ONITSUKA ◽

Iehisa NEZU

Keyword(s):

Buffer Layer ◽

Channel Flow ◽

Open Channel ◽

Open Channel Flow ◽

Viscous Sublayer

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Giant Slip Induced Anomalous Dewetting of an Ultrathin Film on a Viscous Sublayer

Scientific Reports ◽

10.1038/s41598-017-14861-4 ◽

2017 ◽

Vol 7 (1) ◽

Cited By ~ 2

Author(s):

Lin Xu ◽

Dipankar Bandyopadhyay ◽

Puchalapalli Dinesh Sankar Reddy ◽

Ashutosh Sharma ◽

Sang Woo Joo

Keyword(s):

Viscous Sublayer ◽

Ultrathin Film

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Interpreting signals of the spanwise spatial structure in the viscous sublayer

The Physics of Fluids ◽

10.1063/1.861258 ◽

1975 ◽

Vol 18 (8) ◽

pp. 1068 ◽

Cited By ~ 1

Author(s):

Roger L. Simpson

Keyword(s):

Spatial Structure ◽

Viscous Sublayer

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Performance of Turbulence Models and Near-Wall Treatments in Discrete Jet Film Cooling Simulations

Volume 4: Heat Transfer; Electric Power; Industrial and Cogeneration ◽

10.1115/98-gt-438 ◽

1998 ◽

Cited By ~ 22

Author(s):

Jeffrey D. Ferguson ◽

Dibbon K. Walters ◽

James H. Leylek

Keyword(s):

Experimental Data ◽

Film Cooling ◽

Turbulence Models ◽

Viscous Sublayer ◽

Reynolds Stress Model ◽

Quality Data ◽

Wall Functions ◽

First Time ◽

Near Wall ◽

Non Equilibrium

For the first time in the open literature, code validation quality data and a well-tested, highly reliable computational methodology are employed to isolate the true performance of seven turbulence treatments in discrete jet film cooling. The present research examines both computational and high quality experimental data for two length-to-diameter ratios of a row of streamwise injected, cylindrical film holes. These two cases are used to document the performance of the following turbulence treatments: 1) standard k-ε model with generalized wall functions; 2) standard k-ε model with non-equilibrium wall functions: 3) Renormalization Group k-ε (RNG) model with generalized wall functions; 4) RNG model with non-equilibrium wall functions: 51 standard k-ε model with two-layer turbulence wall treatment; 6) Reynolds Stress Model (RSM) with generalized wall functions; and 7) RSM with non-equilibrium wall functions. Overall, the standard k-ε turbulence model with the two-layer near-wall treatment, which resolves the viscous sublayer, produces results that are more consistent with experimental data.

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