Structure of the Viscous Sublayer in Drag Reducing Channel Flows

The objective of this study was to experimentally determine the effect of dilute, long-chain, polymer solutions upon the flow processes in a fully developed, two-dimensional turbulent channel flow. This was accomplished by making motion pictures of dye seeped through a slot into the viscous sublayer. The motion pictures were analyzed to determine the span-wise spacing and the bursting rate of the low-speed streaks that are characteristic of the sublayer structur

Individual Realization Laser-Doppler Technique Applied to Turbulent Channel Flow

Measurements of the mean and turbulence intensity of the streamwise velocity component in a fully developed, two-dimensional channel flow of water are presented. The measurements were made with the individual realization laser Doppler technique and emphasize the near-wall region of the flow. A dual-scatter optical arrangement was used which employs 90° scattering and yields a probe volume whose length normal to the wall is 0.0075 inches. A correction has been made to the data that accounts for the statistical biasing which occurs in the individual realization technique. The corrected data demonstrate that the individual realization technique can yield accurate velocity estimates in the near-wall region where turbulent fluctuations are large