For investigation of the drift behaviors behind single air bubble, interfaces between two insoluble liquids were introduced. In this system, the shape variation of the interface was clearly observed when a bubble was passing through the interface. A dritf profile based on the major axis of the bubble in the upper phase of the solution is influenced by the bubble size.
For each system whose viscosity of the lower phase is as large as or larger than that of the upper phase, the drift profile based on the major axis of the bubble in the lower phase is nearly independent of both the bubble size and the physical properties of the upper phase of the solution. The averaged drift in this experiment decreases with the decrease of the viscosity of the lower phase and ultimately approaches Darwin's total drift. To examine the coincidence between Darwin's total drift and data obtained in this work, the averaged drift area of each system was correlated to the viscosity of the lower phase. The correlation shows as follows.
1/S-1.11 = 0.1+0.2μ_l^-1+0.05μ_l^-2
The drift area extrapolated to that of zero viscosity was 1.11, and this value is nearly coincident with that of Darwin's total drift area, 0.95.