Entropy (Aug 2019)

Gas-Vapor Mixture Temperature in the Near-Surface Layer of a Rapidly-Evaporating Water Droplet

  • Dmitry Antonov,
  • Roman Volkov,
  • Pavel Strizhak

DOI
https://doi.org/10.3390/e21080803
Journal volume & issue
Vol. 21, no. 8
p. 803

Abstract

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Mathematical modeling of the heat and mass transfer processes in the evaporating droplet−high-temperature gas medium system is difficult due to the need to describe the dynamics of the formation of the quasi-steady temperature field of evaporating droplets, as well as of a gas-vapor buffer layer around them and in their trace during evaporation in high-temperature gas flows. We used planar laser-induced fluorescence (PLIF) and laser-induced phosphorescence (LIP). The experiments were conducted with water droplets (initial radius 1−2 mm) heated in a hot air flow (temperature 20−500 °C, velocity 0.5−6 m/s). Unsteady temperature fields of water droplets and the gas-vapor mixture around them were recorded. High inhomogeneity of temperature fields under study has been validated. To determine the temperature in the so called dead zones, we solved the problem of heat transfer, in which the temperature in boundary conditions was set on the basis of experimental values.

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