CHARACTERIZATION OF TURBULENCE IN A CLOSED FLOW

We investigate the closed flow between coaxial contra rotating disks, at moderate to high Reynolds numbers. We show that global (i.e. spatia lly averaged) quantities can be used to characterize the state of the flow and its degree of turbulence. We first report measurements on the driving torque and show how it depends on the manner momentum is impa rted to the fluid. We then show that pressure measurements at the how boundary provide a good estimate of the rms velocity fluctuations in t he how and that it reveals the transition to turbulence in the flow vo lume. Finally, we show that once the transition has occurred, the know ledge of the same global quantities allows the calculation of fundamen tal turbulence characteristics such as the rms velocity fluctuations, the effective integral length scale L, Taylor's microscale lambda and Kolmogorov's dissipation length eta. That these quantities may be obt ained from measuring devices removed from the bulk of the flow is of i mportance for the study of fluid motion in complex geometries and/or u sing corrosive fluids.