Large Structure Dynamics and Entrainment in the Mixing Layer at High Reynolds Number

Creators: Dimotakis, Paul E.; Brown, Garry L.

Abstract

Observations were made on a turbulent mixing layer in a water channel at Reynolds numbers up to 3 x 10^6 . Flow visualization with dyes revealed (once more) large coherent structures and showed their role in the entrainment process; observations of the reaction of a base and an acid indicator injected on the two sides of the layer, respectively, gave some indication of where molecular mixing occurs. Autocorrelations of streamwise velocity fluctuations, using an LDV, revealed a fundamental periodicity associated with the large structures. The surprisingly long correlation times suggest time scales much longer than had been supposed; it is argued that the mixing layer dynamics at any point is coupled to the large structure further downstream, and some possible consequences about the effects of initial conditions and,. of the influence of apparatus geometry are discussed.

Additional Information

Project Squid Technical Report CIT-7-PU. Project SQUID is a cooperative program of basic research relation to Jet Propulsion. it is sponsored by the Office of Naval Research and is administered by Purdue University through Contract N00014-75-C-1143, NR-098-038. The work was supported by the Office of Naval Research (Fluid Dynamics Program Contract No. N00014-67-A-0094-0037 and Project SQUID Contract No. 4965-42) and the Caltech President's Fund Grant NO. PF-075.

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