Measurements of Skin Friction in a Plane Turbulent Wall Jet

A. Sigalla

doi:10.1017/S0368393100070231

Summary

Results of an experimental investigation of the distribution of skin friction along the wall of a plane turbulent wall jet are presented. The measurements show that it is possible to describe the variation of skin friction coefficient by a formula similar to the Blasius formula which is based on experimental results of turbulent pipe flow. This is simply achieved by considering the inner layer of fluid between the wall and the position where the velocity is a maximum as a boundary layer with an outer uniform free stream of velocity equal to the local maximum velocity.

Other measurements of velocity distribution indicate that within the experimental range and accuracy, the velocity profiles in the jet are similar and that the rate of change of velocity and width of the jet can be expressed by simple power laws. These results are then partially compared with theory.

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Measurements of Skin Friction in a Plane Turbulent Wall Jet

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Measurements of Skin Friction in a Plane Turbulent Wall Jet

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