论文信息 - The effect of jet injection geometry on two-dimensional momentumless wakes

The effect of jet injection geometry on two-dimensional momentumless wakes

It is shown experimentally that a two-dimensional momentumless wake is strongly dependent on the jet injection configuration of the model. Namely, the decay rate of mean velocity overshoot ranged from X O . ~ * to x2.0 for three different configurations, while the spreading rate ranged from x O . ~ to x0.46 for those same configurations. The magnitude of axial turbulence intensity was also found to depend on model configuration. On the other hand, the rate of decay of axial turbulence intensity was the same (x-O.*l) for all three models. In all cases the mean shear and Reynolds stress decayed rapidly, leaving nearly isotropic turbulence beyond 30 or 40 model diameters. Appropriate lengthand velocity scales are identified which normalize the mean velocity profiles into self-similar form. The shape of t,he normalized profile, however, was different for each configuration, indicating again that t,he initial conditions are felt very far downstream.

John M. Cimbala | J. Cimbala | W. J. Park | W. Park

[1] J. A. Schetz,et al. Experimental studies of the turbulent wake behind self-propelled slender bodies , 1975 .

[2] G. Merritt. Wake Growth and Collapse in Stratified Flow , 1973 .

[3] L. Kovasznay,et al. Turbulence Measurements in the Wake of a Thin Flat Plate , 1969 .

[4] John M. Cimbala,et al. An experimental investigation of the turbulent structure in a two-dimensional momentumless wake , 1990, Journal of Fluid Mechanics.

[5] R. W. Stewart,et al. Experiments with a self-propelled body submerged in a fluid with a vertical density gradient , 1963, Journal of Fluid Mechanics.

[6] M. Finson. Similarity behaviour of momentumless turbulent wakes , 1975, Journal of Fluid Mechanics.

[7] Eduard Naudascher,et al. Flow in the wake of self-propelled bodies and related sources of turbulence , 1965, Journal of Fluid Mechanics.

[8] Roddam Narasimha,et al. Equilibrium and relaxation in turbulent wakes , 1972, Journal of Fluid Mechanics.

[9] Thomas Carmody,et al. Establishment of the Wake Behind a Disk , 1964 .