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Bubble rise velocity is considered to vary at different orientations.
The resulting higher rise velocity reduces the gas holdup.
The bubble rise velocity significantly decreases as the pressure increases.
It is now well established that three parameters influence the bubble rise velocity.
A model is proposed, based on the drift flux method, to predict the bubble rise velocity.
Dynamic gas disengagement technique is utilized to measure bubble rise velocity and sauter mean bubble diameter.
We also present the normalized static bubble rise velocity, as effects of inclination and fluid properties can be objectively observed.
It is found that the bubble rise velocity decreases with increasing pressure and with decreasing temperature.
The bubble rise velocity is significantly lower than that in the absence of an acoustic field.
The evaluation of some existing elongated bubble rise velocity has also been carried out.
The results on KLA and the rise velocity Ubθ have been empirically correlated.
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