Numerical study of spike characteristics due to the motions of a non-spherical rebounding bubble

Numerical study of spike characteristics due to the motions of a non-spherical rebounding bubble

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摘要 The boundary integral method（BIM） is used to simulate the 3-D gas bubble, generated within the two bubble pulsation periods in proximity to a free surface in an inviscid, incompressible and irrotational flow. The present method is well validated by comparing the calculated shapes of the bubble and the free surface with both the experimental results and the numerical ones obtained by the Axisymmetric BIM code. The expansion, the collapse of the gas bubble and the further evolution of the rebounding non-spherical bubble are simulated. The various variation patterns of the free surface spike and the bubble centroid for different standoff distances, the buoyancy parameters and the strength parameters are obtained to reveal the nonlinear interaction between the bubble and the free surface. The amplitude of the second maximum bubble volume and the four typical patterns of the bubble jet and the free surface spike are examined in the context of the standoff distance. The large buoyancy is used to elevate the spray dome rather than the free surface spike. The boundary integral method（BIM） is used to simulate the 3-D gas bubble, generated within the two bubble pulsation periods in proximity to a free surface in an inviscid, incompressible and irrotational flow. The present method is well validated by comparing the calculated shapes of the bubble and the free surface with both the experimental results and the numerical ones obtained by the Axisymmetric BIM code. The expansion, the collapse of the gas bubble and the further evolution of the rebounding non-spherical bubble are simulated. The various variation patterns of the free surface spike and the bubble centroid for different standoff distances, the buoyancy parameters and the strength parameters are obtained to reveal the nonlinear interaction between the bubble and the free surface. The amplitude of the second maximum bubble volume and the four typical patterns of the bubble jet and the free surface spike are examined in the context of the standoff distance. The large buoyancy is used to elevate the spray dome rather than the free surface spike.

作者王加夏宗智孙雷李章锐姜明佐

机构地区 Faculty of Vehicle Engineering and Mechanics Marine Design and Research Institute of China Faculty of Electronic Information and Electrical Engineering

出处《Journal of Hydrodynamics》 SCIE EI CSCD 2016年第1期52-65,共14页 水动力学研究与进展B辑（英文版）

基金 supported by the National Natural Science Foun-dation of China(Grant Nos.51221961,51279030) the National Key Basic Research Development Program of China(973 Pro-gram,Grant Nos.2013CB036101,2010CB832704) the Fundamental Research Funds for the Central Universities(Grant No.L2012016)

关键词 boundary integral method toroidal bubble free surface spike boundary integral method toroidal bubble free surface spike

分类号 O35 [理学—流体力学]

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Numerical study of spike characteristics due to the motions of a non-spherical rebounding bubble

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