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Article

Simulation of a suspended droplet under evaporation with Marangoni effects

Authors: Albernaz, D.L., Amberg, G.A., Do-Quang, M.
Document Type: Article
Pubstate: Published
Journal: Int. J. Heat Mass Transfer
Volume: 97   853
Year: 2016

Abstract

We investigate the Marangoni effects in a hexane droplet under evaporation and close to its critical point. A lattice Boltzmann model is used to perform 3D numerical simulations. In a first case, the droplet is placed in its own vapor and a temperature gradient is imposed. The droplet locomotion through the domain is observed, where the temperature differences across the surface is proportional to the droplet velocity and the Marangoni effect is confirmed. The droplet is then set under a forced convection condition. The results show that the Marangoni stresses play a major role in maintaining the internal circulation when the superheated vapor temperature is increased. Surprisingly, surface tension variations along the interface due to temperature change may affect heat transfer and internal circulation even for low Weber number. Other results and considerations regarding the droplet surface are also discussed.