Abstract
The velocity of a single bubble in quiescent and flowing liquid was studied to gain information on the structure of bubble- and slug-flows of gas-liquid two-phase flow. In the experiments, tap water was used at room temperature and the bubbles were generated by injecting air with a syringe. The bubble velocities were evaluated from photographs taken by multiflash exposure. The tube diameters adopted were 5, 1 and 0.5 cm for the flowing liquid experiments and 1, 0.5 and 0.2 cm for the quiescent liquid experiments. The average liquid velocities varied from about 0 to 2 m/sec. The results indicated that the velocity of a single bubble in flowing liquid was the sum of the local liquid velocity in the vicinity of the bubble and of the velocity of rise of bubble in quiescent liquid. For Taylor bubbles, the local liquid velocity is given by the maximum liquid velocity near the center of the channel. The velocities of spherical and ellipsoidal bubbles are determined by the balance of forces acting on them, but th...
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