In this paper numerical results are presented for the buoyancy-driven rise of a deformable bubble through an unbounded quiescent fluid. Complete solutions, including the bubble shape, are obtained for Reynolds numbers in the range 1 [less-than-or-equal] R [less-than-or-equal] 200 and for Weber numbers up to 20. For Reynolds numbers R [less-than-or-equal] 20 the shape of the bubble changes from nearly spherical to oblate-ellipsoidal to spherical-cap depending on Weber number; at higher Reynolds numbers ‘disk-like’ and ‘saucer-like’ shapes appear at W = O(10). The present results show clearly that flow separation may occur at a smooth free surface at intermediate Reynolds numbers; this fact suggests a qualitative explanation of the often-observed irregular (zigzag or helical) paths of rising bubbles.
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机译:在本文中,给出了通过无边界的静态流体的浮力驱动的可变形气泡上升的数值结果。对于1 [小于或等于] R [小于或等于] 200范围内的雷诺数,以及至多20的韦伯数,可获得完整的解,包括气泡形状。 [小于或等于] 20,气泡的形状根据韦伯数从近球形变为扁椭圆形,再到球形帽。在较高的雷诺数下,“盘状”和“碟状”形状出现在W = O(10)处。本结果清楚地表明,在中间雷诺数下,流动分离可能发生在光滑的自由表面上。这一事实提出了对经常观察到的上升气泡的不规则(曲折或螺旋形)路径的定性解释。
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