Experimental Studies of the Evaporation of Pure Liquid Droplets in a Single-Axis Non-Resonant Levitator

Experimental Studies of the Evaporation of Pure Liquid Droplets in a Single-Axis Non-Resonant Levitator

Though a simple daily observation, evaporation of drops is still poorly understood due to the complex nature that involves hydrodynamic effects in the bulk fluids and transport phenomena at the liquid-vapor interface. This paper reports on the evaporation of single component droplets (water, ethanol...

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Main Authors: M. Radmilovic-Radjenovic, D. Radjenovic, M. Mitric, B. Radjenovic
Format: Article
Language:English
Published: Isfahan University of Technology 2021-01-01
Series:Journal of Applied Fluid Mechanics
Subjects:
evaporation; surface regression; pure liquid droplet; non-resonant levitator.
Online Access:http://jafmonline.net/JournalArchive/download?file_ID=54924&issue_ID=1011
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spelling doaj-73ce37db4c5e42fe8a7607fa66925d882021-01-11T08:24:44ZengIsfahan University of Technology Journal of Applied Fluid Mechanics1735-35722021-01-01142581587.Experimental Studies of the Evaporation of Pure Liquid Droplets in a Single-Axis Non-Resonant LevitatorM. Radmilovic-Radjenovic0D. Radjenovic1M. Mitric2B. Radjenovic3Institute of Physics, University of Belgrade, 11080 Belgrade, SerbiaFaculty of Mathematics, University of Belgrade, 11000 Belgrade, SerbiaVinc ̌a Institute of Nuclear Science, POB 522,1000 Belgrade, SerbiaInstitute of Physics, University of Belgrade, 11080 Belgrade, SerbiaThough a simple daily observation, evaporation of drops is still poorly understood due to the complex nature that involves hydrodynamic effects in the bulk fluids and transport phenomena at the liquid-vapor interface. This paper reports on the evaporation of single component droplets (water, ethanol, acetone, and glycerol) levitated in a single-axis non-resonant levitator. It was observed that the acetone and ethanol evaporated faster than water, although the acetone is the most volatile. The estimated lifetime of acetone is less than 5min, which is much shorter as compared to 56min for ethanol or about 90min for water droplets. On the other hand, glycerol showed no tendency to evaporate. With increasing the evaporation time, the ratio of large and small semi-axis decreases and tends to 1 corresponding to changes in drops shape from oblate ellipsoid to a sphere. Based on the classical D2-law, the surface regression rates have been estimated.http://jafmonline.net/JournalArchive/download?file_ID=54924&issue_ID=1011evaporation; surface regression; pure liquid droplet; non-resonant levitator.
collection DOAJ
language English
format Article
sources DOAJ
author M. Radmilovic-Radjenovic
D. Radjenovic
M. Mitric
B. Radjenovic
spellingShingle M. Radmilovic-Radjenovic
D. Radjenovic
M. Mitric
B. Radjenovic
Experimental Studies of the Evaporation of Pure Liquid Droplets in a Single-Axis Non-Resonant Levitator
Journal of Applied Fluid Mechanics
evaporation; surface regression; pure liquid droplet; non-resonant levitator.
author_facet M. Radmilovic-Radjenovic
D. Radjenovic
M. Mitric
B. Radjenovic
author_sort M. Radmilovic-Radjenovic
title Experimental Studies of the Evaporation of Pure Liquid Droplets in a Single-Axis Non-Resonant Levitator
title_short Experimental Studies of the Evaporation of Pure Liquid Droplets in a Single-Axis Non-Resonant Levitator
title_full Experimental Studies of the Evaporation of Pure Liquid Droplets in a Single-Axis Non-Resonant Levitator
title_fullStr Experimental Studies of the Evaporation of Pure Liquid Droplets in a Single-Axis Non-Resonant Levitator
title_full_unstemmed Experimental Studies of the Evaporation of Pure Liquid Droplets in a Single-Axis Non-Resonant Levitator
title_sort experimental studies of the evaporation of pure liquid droplets in a single-axis non-resonant levitator
publisher Isfahan University of Technology
series Journal of Applied Fluid Mechanics
issn 1735-3572
publishDate 2021-01-01
description Though a simple daily observation, evaporation of drops is still poorly understood due to the complex nature that involves hydrodynamic effects in the bulk fluids and transport phenomena at the liquid-vapor interface. This paper reports on the evaporation of single component droplets (water, ethanol, acetone, and glycerol) levitated in a single-axis non-resonant levitator. It was observed that the acetone and ethanol evaporated faster than water, although the acetone is the most volatile. The estimated lifetime of acetone is less than 5min, which is much shorter as compared to 56min for ethanol or about 90min for water droplets. On the other hand, glycerol showed no tendency to evaporate. With increasing the evaporation time, the ratio of large and small semi-axis decreases and tends to 1 corresponding to changes in drops shape from oblate ellipsoid to a sphere. Based on the classical D2-law, the surface regression rates have been estimated.
topic evaporation; surface regression; pure liquid droplet; non-resonant levitator.
url http://jafmonline.net/JournalArchive/download?file_ID=54924&issue_ID=1011
work_keys_str_mv AT mradmilovicradjenovic experimentalstudiesoftheevaporationofpureliquiddropletsinasingleaxisnonresonantlevitator
AT dradjenovic experimentalstudiesoftheevaporationofpureliquiddropletsinasingleaxisnonresonantlevitator
AT mmitric experimentalstudiesoftheevaporationofpureliquiddropletsinasingleaxisnonresonantlevitator
AT bradjenovic experimentalstudiesoftheevaporationofpureliquiddropletsinasingleaxisnonresonantlevitator
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