1. Turbulent structure in unsteady depth-varying open-channel flows
- Author
-
Nezu, Iehisa, Kadota, Akihiro, and Nakagawa, Hiroji
- Subjects
Channels (Hydraulic engineering) -- Research ,Turbulence -- Research ,Laser Doppler velocimeter -- Usage ,Floodplains -- Research ,Engineering and manufacturing industries ,Science and technology - Abstract
Turbulence measurements over a smooth wall in unsteady depth-varying open-channel flows were conducted by the simultaneous use of a two-component laser Doppler anemometer (LDA) and a water-wave gauge. In the present study, velocity measurements in the viscous sublayer of highly unsteady flow have been first conducted to evaluate the friction velocity independently of the log-law. The von Karman constant [Kappa] was calculated using this friction velocity. It was proven then that the value of [Kappa] was really a constant of 0.41 even in unsteady open-channel flows. Next, statistical structures of mean velocity and turbulence characteristics were investigated across the whole flow from the near-wall region up to the free surface. In particular, turbulence measurements near the depth-varying water-surface zone of flood flow were conducted successfully for the first time with the LDA; such measurements have been impossible with conventional velocity instruments such as hot-film anemometers. Mean velocity profiles and turbulence characteristics were revealed in both the rising and the falling stages of the flood period.
- Published
- 1997