Multi-bubble motion behavior of uniform magnetic field based on phase field model
Abstract
Aiming at the interaction and coalescence of bubbles in gas-liquid two-phase flow, a multi-field coupling model was established to simulate deformation and dynamics of multi-bubble in gas-liquid two-phase flow by coupling magnetic field, phase field, continuity equation, and momentum equation. Using the phase field method to capture the interface of two phases, the geometric deformation and dynamics of a pair of coaxial vertical rising bubbles under the applied uniform magnetic field in the vertical direction were investigated. The correctness of results is verified by mass conservation method and the comparison of the existing results. The results show that the applied uniform magnetic field can effectively shorten the distance between the leading bubble and the trailing bubble, the time of bubbles coalescence, and increase the velocity of bubbles coalescence. Within a certain range, as the intensity of the applied uniform magnetic field increases, the velocity of bubbles coalescence is proportional to the intensity of the magnetic field, and the time of bubbles coalescence is inversely proportional to the intensity of the magnetic field.
- Publication:
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Chinese Physics B
- Pub Date:
- March 2020
- DOI:
- 10.1088/1674-1056/ab6839
- Bibcode:
- 2020ChPhB..29c4702Z
- Keywords:
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- bubbles coalescence;
- uniform magnetic field;
- numerical simulation;
- phase field method