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A study of two unequal-sized droplets undergoing oblique collision

Gembali Sai Chaitanya, Kirti Chandra Sahu, Gautam Biswas

2021Physics of Fluids29 citationsDOI

Abstract

The oblique collision of two unequal-sized liquid droplets in a gaseous environment is investigated numerically. It is found that the asymmetry in the flow field arising due to unequal-sized droplets and oblique collision greatly alters the collision outcomes observed in the case of the head-on collision of identical droplets. Our results reveal that permanent coalescence occurs at intermediate collision angles, but head-on and large-angle collisions result in reflexive separation and stretching separation, respectively. Moreover, we found that the end-pinching mechanism is operational in the case of head-on collision, and the capillary wave instability is responsible for the ligament breakup for large collision angles. It is also observed that the droplets coalesce permanently for low velocity ratios and high radius ratios, but for high velocity ratios and low radius ratios, the droplets coalesce temporarily and then split again. By conducting a large number of numerical simulations, the collision outcomes and the boundary separating them are plotted on Rr−We and θ−We planes, where We, Rr, and θ represent the Weber number, radius ratio of droplets, and collision angle, respectively.

Topics & Concepts

CollisionPhysicsBreakupMechanicsOblique caseCoalescence (physics)RADIUSWeber numberRelative velocityReynolds numberCoulomb collisionInstabilityClassical mechanicsInelastic collisionTurbulenceNuclear physicsPhilosophyAstrobiologyComputer securityComputer scienceLinguisticsElectronFluid Dynamics and Heat TransferElectrohydrodynamics and Fluid DynamicsSurface Modification and Superhydrophobicity
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