A model for the prediction of the terminal relative velocity of single gas bubbles or drops, moving into a quiescent liquid phase, is presented. Also the effect of contamination is taken into account. It has been compared with a large set of experimental literature data covering a wide range of physical properties and particle sizes. The agreements are quite satisfactory and confirm the reliability of the model
Bubble formation at variously inclined submerged nozzles, fed with a continuous gas flow rate, is in...
A new physical model is developed to predict the pressure drop of a steady-state gas-liquid bubbly f...
Bubble formation at variously inclined submerged nozzles, fed with a continuous gas flow rate, is in...
A model for the prediction of the terminal relative velocity of single gas bubbles or drops, moving ...
The terminal relative rising velocity of a single gas bubble, moving into a liquid phase, is determi...
The relative terminal rising velocity of a single gas bubble, moving into a liquid phase, is determi...
Results gathered from the literature on the dynamics of bubbles in liquid are correlated by means of...
A one-dimensional model has been developed to predict liquid phase velocities in bubble columns. The...
As it is known, buoyancy and drag forces rule bubble's rise velocity in a liquid column. These force...
The purpose of this investigation was to study the effect of physical properties and system dimensio...
A force balance model has been developed to predict the terminal velocity of a sub-millimetric bubbl...
A new model has been developed for the liquid phase flow pattern in bubble columns. This model satis...
Numerical predictions are presented for the motion and distortion of a single gas bubble rising thro...
The dynamics of bubble pairs is different from the single bubble dynamics due to their interaction. ...
Laboratory results have demonstrated the importance of bubble plumes to air-water gas transfer (Ashe...
Bubble formation at variously inclined submerged nozzles, fed with a continuous gas flow rate, is in...
A new physical model is developed to predict the pressure drop of a steady-state gas-liquid bubbly f...
Bubble formation at variously inclined submerged nozzles, fed with a continuous gas flow rate, is in...
A model for the prediction of the terminal relative velocity of single gas bubbles or drops, moving ...
The terminal relative rising velocity of a single gas bubble, moving into a liquid phase, is determi...
The relative terminal rising velocity of a single gas bubble, moving into a liquid phase, is determi...
Results gathered from the literature on the dynamics of bubbles in liquid are correlated by means of...
A one-dimensional model has been developed to predict liquid phase velocities in bubble columns. The...
As it is known, buoyancy and drag forces rule bubble's rise velocity in a liquid column. These force...
The purpose of this investigation was to study the effect of physical properties and system dimensio...
A force balance model has been developed to predict the terminal velocity of a sub-millimetric bubbl...
A new model has been developed for the liquid phase flow pattern in bubble columns. This model satis...
Numerical predictions are presented for the motion and distortion of a single gas bubble rising thro...
The dynamics of bubble pairs is different from the single bubble dynamics due to their interaction. ...
Laboratory results have demonstrated the importance of bubble plumes to air-water gas transfer (Ashe...
Bubble formation at variously inclined submerged nozzles, fed with a continuous gas flow rate, is in...
A new physical model is developed to predict the pressure drop of a steady-state gas-liquid bubbly f...
Bubble formation at variously inclined submerged nozzles, fed with a continuous gas flow rate, is in...
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