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  • 1
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    Direct force wall shear measurements in pressure-driven three-dimensional turbulent boundary layers (1982)
    In:  Other Sources
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    Publication Date: 2019-06-28
    Description: Unique, simultaneous direct measurements of the magnitude and direction of the local wall shear stress in a pressure-driven three-dimensional turbulent boundary layer are presented. The flow is also described with an oil streak wall flow pattern, a map of the wall shear stress-wall pressure gradient orientations, a comparison of the wall shear stress directions relative to the directions of the nearest wall velocity as measured with a typical, small boundary layer directionally sensitive claw probe, as well as limiting wall streamline directions from the oil streak patterns, and a comparison of the freestream streamlines and the wall flow streamlines. A review of corrections for direct force sensing shear meters for two-dimensional flows is presented with a brief discussion of their applicability to three-dimensional devices.
    Keywords: FLUID MECHANICS AND HEAT TRANSFER
    Format: text
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  • 2
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    Near-wall similarity in three-dimensional turbulent boundary layers. I - Model review. II - Pressure-driven flow results (1982)
    In:  Other Sources
    Details
    Publication Date: 2019-07-13
    Description: Eleven proposed models for near-wall similarity for three-dimensional turbulent boundary layer flows are reviewed. Six of these models are comparatively simple scalar models and five are more complex and/or two-component vector models. Ten of the models can be tested as to their validity or predictive capability with the aid of measured mean velocity field, wall pressure field, and direct wall shear stress field (magnitude and direction) data. One of the models cannot be tested owing to its dependence on two parameters that are at present extremely difficult (if not impossible) to measure. Ten three-dimensional near-wall similarity models are then evaluated with direct wall shear, velocity field, and pressure gradient data from a three-dimensional pressure-driven boundary layer flow. In a primary focus of the interval where y+ is between 50 and 300, graphical results suggest that six simpler models and the freestream component of one complex model are adequate for profiles with monotone increasing skew up to about 15 deg.
    Keywords: FLUID MECHANICS AND HEAT TRANSFER
    Type: Three dimensional turbulent shear flows; Joint Fluids, Plasma, Thermophysics and Heat Transfer Conference; Jun 07, 1982 - Jun 11, 1982; St. Louis, MO
    Format: text
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