On the Threshold of Drop Fragmentation under Impulsive Acceleration

Abstract

Secondary fragmentation of an impulsively accelerated drop depends on fluid properties and velocity of the ambient. The critical Weber number (Wecr), the minimum Weber number at which a drop undergoes non-vibrational breakup, depends on density ratio (), the drop (Ohd), and the ambient (Oho) Ohnesorge numbers. The current study uses VoF based interface-tracking multiphase flow simulations to quantify the effect of different non-dimensional groups on the threshold at which secondary fragmentation occur. For Ohd ≤ 0.1, a decrease in Ohd was found to significantly influence the breakup morphology, plume formation, and Wecr. The balance between the pressure difference between the poles and the periphery, and the shear stresses on the upstream surface, was found to be controlled by and Oho. These forces induce flow inside the initially spherical drop, resulting in deformation into pancakes and eventually the breakup morphology of forward/backward bag. The evolution pathways of the drop morphology based on their non-dimensional groups have been charted. With inclusion of the data from the expanded parameter-space, the traditional Wecr-Ohd diagram used to illustrate the dependence of critical Weber number on Ohd, was found to be inadequate in predicting the minimum initial We required to undergo fragmentation. A new non-dimensional parameter Cbreakup is derived based on the competition between the forces driving the drop deformation and the forces resisting the drop deformation. Tested using available experimental data and current simulations, Cbreakup is found to be a robust predictor for the threshold of drop fragmentation.

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