EXPERIMENTAL CHARACTERIZATION OF THE VELOCITY-FIELD OF A COAXIAL JET CONFIGURATION

The mean and fluctuating flow fields of a coaxial jet configuration, w ith ratios between inner and outer diameters and velocities D-i/D-o = 0.485 and U-i/U-o = 0.67, turbulent exit boundary layers, and high tur bulence levels in the exit cores are studied by means of LDA and hot-w ire measurements, using an experimental facility designed for the purp ose. The profiles of the mean axial velocity, of the axial and radial turbulence intensities, and of the shear stress are described for the initial and intermediate zones of the near field. The lengths of the p otential cores are in good agreement with available data obtained with lower exit turbulence levels and laminar boundary layers. It is shown that the prevailing frequencies of the flow fluctuations may be bette r recognized if the hot-wire spectra of both the axial and the radial velocities are analyzed. These frequencies show significant radial dif ferences in the initial and intermediate mixing zones but become progr essively more uniform with increasing distance from the exit. In the n ear-exit region of the inner mixing layer evidence is also found of a probable alternate vortex shedding from the inner duct wall. This phen omenon is shown to exist for U-i/U-o greater than or equal to 0.44, wi th a constant Strouhal number St(t) = 0.24, based on the thickness of the wall and on the average velocity of the two streams.