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Size distribution of a drop undergoing breakup at moderate Weber numbers

Someshwar Sanjay Ade, Lakshmana Dora Chandrala, Kirti Chandra Sahu

2023Journal of Fluid Mechanics30 citationsDOI

Abstract

The size distribution of child droplets resulting from a dual-bag fragmentation of a water drop is investigated using shadowgraphy and digital in-line holography techniques. It is observed that parent drop fragmentation contributes to the atomisation of tiny child droplets, whereas core drop disintegration predominantly results in larger fragments. Despite the complexity associated with dual-bag fragmentation, we demonstrate that it exhibits a bi-modal size distribution. In contrast, the single-bag breakup undergoes a tri-modal size distribution. We employ the analytical model developed by Jackiw & Ashgriz ( J. Fluid Mech. , vol. 940, 2022, A17) for dual-bag fragmentation that convincingly predicts the experimentally observed droplet volume probability density. We also estimate the temporal evolution of child droplet production in order to quantitatively illustrate the decomposition into initial and core breakups. Furthermore, we confirm that the analytical model adequately predicts the droplet size distribution for a range of Weber numbers.

Topics & Concepts

BreakupDrop (telecommunication)MechanicsWeber numberDistribution (mathematics)Statistical physicsMaterials sciencePhysicsComputer scienceMathematicsReynolds numberMathematical analysisTurbulenceTelecommunicationsFluid Dynamics and Heat TransferElectrohydrodynamics and Fluid DynamicsFluid Dynamics and Mixing
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