Jet diffusion from a circular nozzle above a solid plane

Davis, M. R.; Winarto, Hadi

doi:10.1017/s0022112080001607

Cited by 75 publications

(43 citation statements)

References 7 publications

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“…The wall jet growth rate in the transverse direction is 1 1 0.51 times the growth rate for the free jet. These results for the wall jet are in good agreement with the results of Davis and Winarto (1980). The mean growth rates of the 3 free-surface jet have not changed as a result of the interaction with the free surface.…”

supporting

confidence: 89%

Interaction of a turbulent round jet with the free surface

Madnia

Bernal

1994

J. Fluid Mech.

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The interaction of a turbulent round jet with the free surface was investigated experimentally. Flow visualization, free-surface curvature measurements and hot-film velocity measurements were used to study this flow. It is shown that surface waves are generated by the large-scale vortical structures in the jet flow as they interact with the free surface. These waves propagate at an angle with respect to the flow direction which increases as the Froude number is increased. Propagation of the waves in the flow direction is suppressed by the surface current produced by the jet. Farther downstream the surface motions are caused by the large-scale vortical structures. Characteristic dark circular features are observed in shadowgraph images associated with concentrated vorticity normal to the free surface. The normal vorticity is believed to be the result of vortex line reconnection processes in the turbulent flow. Measurements of the mean velocity and turbulence intensity are reported. Owing to the confinement by the free surface, the decay rate of the maximum mean velocity is reduced by a factor of √2 compared to an unconfined jet.

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supporting

confidence: 89%

Interaction of a turbulent round jet with the free surface

Madnia

Bernal

1994

J. Fluid Mech.

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“…3 shows that the average Sh at a mercury pool whose surface is stirred by single phase flow from a side entry increases with the 0.89 power of Re, the smaller the feed nozzle diameter the higher the average Sh. The relatively high rate of mass transfer arises from the good mixing conditions at the mercury surface as a result of exchange of momentum between the submerged horizontal jet and the surrounding solution, as the jet proceeds along the mercury surface it spreads widely to cover a large area of the mercury surface [42,43]. Fig.…”

Section: Resultsmentioning

confidence: 99%

Mass transfer at gas sparged interface between two immiscible nondispersed liquids in batch and continuous reactors

Konsowa

Abdo

Hassan

et al. 2004

Chemical Engineering Journal

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“…Based on the data reported by Davis and Winarto (1980), a set of interpolating fimctions that characterize the jet dynamics was constructed. Speciilc data points were read from the experimental result plots provided by these authors.…”

Section: Above-floor-jet Velocity Profilesmentioning

confidence: 99%

“…The prediction for the full-scale flow rate was made assuming the velocity profile for the fi.dl-scalejet is shaped the same as that obtained by Davis and Winarto (1980). This is the data used to create the interpolating functions for predicting the velocity profile of an abovefloor-jet that was discussed in Section 4.…”

Section: 24mentioning

confidence: 99%