Měření vlastností separovaného v proudu ve čtvercovém kanále s obdélníkovými žebry

PIV Measurement of Separated Flow in a Square Channel With Streamwise Periodic Ribs on One Wall

článek v časopise - ostatní, Jost

en

In this study, particle image velocimetry (PIV) is used to investigate the physical process of separated flow in a square channel roughened with periodically transverse ribs on one wall. The ribs obstruct the channel by 15% of its height and are arranged 12 rib heights apart. The Reynolds number, based on the bulk-mean velocity and the corresponding hydraulic diameter of the channel, is fixed at 22,000. Assuming flow periodicity in the streamwise direction, the investigated domain is between two consecutive ribs. The emphasis of this study is to give some insight into the turbulence mechanism associated with separation, reattachment, and subsequent redevelopment. Results are included for mean velocity, friction coefficient, vorticity thickness, Reynolds shear stress, anisotropy parameter, and production of turbulent kinetic energy and shear stress. Based on the two-point correlation profiles, Taylor microscales are derived to reveal the sizes of the turbulence structure in the longitudinal and lateral directions. Moreover, Galilean decomposition is applied to the instantaneous velocity fields. The result shows that the separated shear layer is dominated by the large-scale, unsteady vortical structures.

V příspěvku je popsáno využití metod PIV pro výzkum přenosu tepla v separovaném proudu. Separovaný proud vzniká ve čtvercovém kanálu jehož jedna strana je opatřena žebry, která zabírají 15 % výšky kanálu. Výsledky měření, získané při Reynoldsově čísle 22 000, jsou prezentovány a popsány.

In this study, particle image velocimetry (PIV) is used to investigate the physical process of separated flow in a square channel roughened with periodically transverse ribs on one wall. The ribs obstruct the channel by 15% of its height and are arranged 12 rib heights apart. The Reynolds number, based on the bulk-mean velocity and the corresponding hydraulic diameter of the channel, is fixed at 22,000. Assuming flow periodicity in the streamwise direction, the investigated domain is between two consecutive ribs. The emphasis of this study is to give some insight into the turbulence mechanism associated with separation, reattachment, and subsequent redevelopment. Results are included for mean velocity, friction coefficient, vorticity thickness, Reynolds shear stress, anisotropy parameter, and production of turbulent kinetic energy and shear stress. Based on the two-point correlation profiles, Taylor microscales are derived to reveal the sizes of the turbulence structure in the longitudinal and lateral directions. Moreover, Galilean decomposition is applied to the instantaneous velocity fields. The result shows that the separated shear layer is dominated by the large-scale, unsteady vortical structures.

Separované proudění, Turbulence, PIV

Separated Flow, Turbulence Properties, PIV

2007

01.07.2007

ASME

ASME Technical Publishing Office Three Park Avenue New York NY 10016

0098-2202

JOURNAL OF FLUIDS ENGINEERING-TRANSACTIONS OF THE ASME

129

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