Evaporating droplets

NOUSHINE SHAHIDZADEH-BONN; SALIMA RAFAÏ; AZA AZOUNI; DANIEL BONN

doi:10.1017/S0022112005008190

Abstract

The evaporation of droplets on a substrate that is wetting to the liquid is studied. The radius $R(t)$ of the droplet is followed in time until it reaches zero. If the evaporation is purely diffusive, $R \propto \sqrt{t_0\,{-}\,t}$ is expected, where $t_0$ is the time at which the droplet vanishes; this is found for organic liquids, but water has a different exponent. We show here that the difference is likely to be due to the fact that water vapour is lighter than air, and the vapour of other liquids more dense. If we carefully confine the water so that a diffusive boundary layer may develop, we retrieve $R(t) \propto \sqrt{t_0\,{-}\,t}$. On the other hand, if we force convection for an organic liquid, we retrieve the anomalous exponent for water.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

David, S. Sefiane, Khellil and Tadrist, Lounes 2006. Experimental Investigation of the Effect of the Ambient Gas on Evaporating Sessile Drops. Defect and Diffusion Forum, Vol. 258-260, Issue. , p. 461.

Guena, G. Poulard, C. and Cazabat, A. M. 2006. The contact angle of droplets evaporating at ambient temperature. Applied Mathematics Research eXpress,

Guena, G. Poulard, C. and Cazabat, A. -M. 2007. The dynamics of evaporating sessile droplets. Colloid Journal, Vol. 69, Issue. 1, p. 1.

Ristenpart, W. D. Kim, P. G. Domingues, C. Wan, J. and Stone, H. A. 2007. Influence of Substrate Conductivity on Circulation Reversal in Evaporating Drops. Physical Review Letters, Vol. 99, Issue. 23,

Shahidzadeh-Bonn, Noushine Rafaı̈, Salima Bonn, Daniel and Wegdam, Gerard 2008. Salt Crystallization during Evaporation: Impact of Interfacial Properties. Langmuir, Vol. 24, Issue. 16, p. 8599.

Dunn, Gavin J. Wilson, Stephen K. Duffy, Brian R. David, Samuel and Sefiane, Khellil 2008. Progress in Industrial Mathematics at ECMI 2006. Vol. 12, Issue. , p. 779.

Farwell, Sherry O. Verwolf, Adrian Cai, Zhongtao Smith, Pauline and Roy, Walter 2008. Design and Performance of an Integrated Analytical Swatch Testing System. Instrumentation Science & Technology, Vol. 36, Issue. 6, p. 577.

Teshigawara, R. and Onuki, A. 2008. Droplet evaporation in one-component fluids: Dynamic van der Waals theory. EPL (Europhysics Letters), Vol. 84, Issue. 3, p. 36003.

Dunn, G.J. Wilson, S.K. Duffy, B.R. David, S. and Sefiane, K. 2008. A mathematical model for the evaporation of a thin sessile liquid droplet: Comparison between experiment and theory. Colloids and Surfaces A: Physicochemical and Engineering Aspects, Vol. 323, Issue. 1-3, p. 50.

Dunn, G. J. Wilson, S. K. Duffy, B. R. and Sefiane, K. 2009. Evaporation of a thin droplet on a thin substrate with a high thermal resistance. Physics of Fluids, Vol. 21, Issue. 5,

Prakash, Ravi and Kaler, Karan V. I. S. 2009. DEP actuation of emulsion jets and dispensing of sub-nanoliter emulsion droplets. Lab on a Chip, Vol. 9, Issue. 19, p. 2836.

Craster, R. V. and Matar, O. K. 2009. Dynamics and stability of thin liquid films. Reviews of Modern Physics, Vol. 81, Issue. 3, p. 1131.

Innocenzi, Plinio Malfatti, Luca Piccinini, Massimo Marcelli, Augusto and Grosso, David 2009. Water Evaporation Studied by In Situ Time-Resolved Infrared Spectroscopy. The Journal of Physical Chemistry A, Vol. 113, Issue. 12, p. 2745.

Bhardwaj, Rajneesh Fang, Xiaohua and Attinger, Daniel 2009. Pattern formation during the evaporation of a colloidal nanoliter drop: a numerical and experimental study. New Journal of Physics, Vol. 11, Issue. 7, p. 075020.

Bonn, Daniel Eggers, Jens Indekeu, Joseph Meunier, Jacques and Rolley, Etienne 2009. Wetting and spreading. Reviews of Modern Physics, Vol. 81, Issue. 2, p. 739.

Sefiane, K. Wilson, S. K. David, S. Dunn, G. J. and Duffy, B. R. 2009. On the effect of the atmosphere on the evaporation of sessile droplets of water. Physics of Fluids, Vol. 21, Issue. 6,

DUNN, G. J. WILSON, S. K. DUFFY, B. R. DAVID, S. and SEFIANE, K. 2009. The strong influence of substrate conductivity on droplet evaporation. Journal of Fluid Mechanics, Vol. 623, Issue. , p. 329.

Xu, Xuefeng Luo, Jianbin and Guo, Dan 2010. Criterion for Reversal of Thermal Marangoni Flow in Drying Drops. Langmuir, Vol. 26, Issue. 3, p. 1918.

Sokuler, M. Auernhammer, G. K. Liu, C. J. Bonaccurso, E. and Butt, H-J. 2010. Dynamics of condensation and evaporation: Effect of inter-drop spacing. EPL (Europhysics Letters), Vol. 89, Issue. 3, p. 36004.

Liu, Hong Dharmatilleke, Saman Maurya, Devendra K. and Tay, Andrew A. O. 2010. Dielectric materials for electrowetting-on-dielectric actuation. Microsystem Technologies, Vol. 16, Issue. 3, p. 449.

Download full list

Article contents

Evaporating droplets

Abstract

Access options

Article purchase

Temporarily unavailable

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Evaporating droplets

Abstract

Access options

Article purchase

Temporarily unavailable

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests