Plunging of a liquid jet into a motionless liquid

## Abstract The plunging liquid jet bubble column is an effective device for gas–liquid contacting. Small bubbles are formed in a high‐shear region surrounding the plunging jet, leading to high interfacial area per unit volume of gas. At the same time, the counter‐current flow downstream of the jet

m The change in effective jet diameter is measured as a function of free jet length for vertical liquid jets passing through air. The data are incorporated into a model to predict the rate of gas entrainment for a liquid jet plunging into a confined column of liquid. In the model it was assumed that

## Abstract In this study the bubble size distribution and energy dissipation rate are measured in a plunging liquid jet bubble column. The maximum stable bubble diameter in the mixing zone was successfully predicted based on Weber number analysis. A Pareto analysis indicated that the coalescence o

Transient rates of diffusion through a liquid-liquid interface have been measured using a hamhrar jet. The system isobutanol-w\*ater at nominal contact times of 0.05 to 0.5 set exhibits what appears to be a small interfacial resistance of approximately 80 see/cm. Stability of the jet limits the vari

Air entrainment by vertical liquid plunging jets is considered. Mechanisms leading to the onset of entrainment are briefly discussed. New experimental data are collected for the two regions of the onset of entrainment: droplet and continuous jet regions. For the droplet region of entrainment an empi