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2014 | OriginalPaper | Buchkapitel

A Three-Dimensional SPH Approach for Modelling the Collision Process Between Liquid Drops: The Formation of Clusters of Unequal-Sized Drops

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Abstract

In this chapter, we present three-dimensional simulations of the coalescence collision and clustering of unequal-sized water drops in vacuum, using the method of Smoothed Particle Hydrodynamics (SPH). The thermodynamics of the problem is represented by a Mie-Grüneisen equation of state. Depending on the magnitude of the collision velocity three different outcomes are observed: permanent coalescence, permanent coalescence accompanied by fragmentation into satellite droplets, and drop clustering with no coalescence (flocculation). When the inertial forces prevail and the surface tension forces are too low permanent coalescence with or without fragmentation into satellite droplets is observed, but for low collision velocities of 0.5 mm/ms, or less, the simulations predict drop flocculation. In this latter case, the drops remain attached to one another, forming a drop clustering.

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Literatur
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Zurück zum Zitat Acevedo-Malavé A, García-Sucre M (2012) Head-on binary collisions of unequal size liquid drops with smoothed particle hydrodynamics, vol 9. Transworld Research Network, Kerala, pp 245–266 Acevedo-Malavé A, García-Sucre M (2012) Head-on binary collisions of unequal size liquid drops with smoothed particle hydrodynamics, vol 9. Transworld Research Network, Kerala, pp 245–266
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Metadaten
Titel
A Three-Dimensional SPH Approach for Modelling the Collision Process Between Liquid Drops: The Formation of Clusters of Unequal-Sized Drops
verfasst von
Alejandro Acevedo-Malavé
Copyright-Jahr
2014
DOI
https://doi.org/10.1007/978-3-319-00191-3_19