Drying kinetics driven by the shape of the air/water interface in a capillary channel

. We look at the drying process in a simple glass channel with dominant capillary effects as is the case in microfluidics. We find drying kinetics commonly observed for confined geometry, namely a constant period followed by a falling rate period. From visualization of the air/water interface with h...

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Published in:	The European physical journal. E, Soft matter and biological physics Vol. 39; no. 2; p. 23
Main Authors:	Keita, Emmanuel, Koehler, Stephan A., Faure, Paméla, Weitz, David A., Coussot, Philippe
Format:	Journal Article
Language:	English
Published:	Berlin/Heidelberg Springer Berlin Heidelberg 01-02-2016 EDP Sciences: EPJ
Subjects:	Air Biological and Medical Physics Biophysics Complex Fluids and Microfluidics Complex Systems Engineering Sciences Finite Element Analysis Kinetics Materials Nanotechnology Physical Phenomena Physics Physics and Astronomy Polymer Sciences Regular Article Soft and Granular Matter Surfaces and Interfaces Thin Films Water Wettability Wetting and Drying: Physics and Pattern Formation Topical Issue: Wetting and Drying: Physics and Pattern Formation Physics and Pattern Formation Wetting and Drying
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Abstract	. We look at the drying process in a simple glass channel with dominant capillary effects as is the case in microfluidics. We find drying kinetics commonly observed for confined geometry, namely a constant period followed by a falling rate period. From visualization of the air/water interface with high resolution, we observe that the drying rate decreases without a drying front progression although this is the usually accepted mechanism for confined geometries. We show with FEM that in our specific geometry the falling rate period is due to changes in the shape of the air-water interface at the free surface where most evaporation occurs. Our simulations show that the sensitivity of the drying rate to the shape of the first air-water interface from the sample free surface implies that slight changes of the wetting or pinning conditions can significantly modify the drying rate. Graphical abstract
AbstractList	We look at the drying process in a simple glass channel with dominant capillary effects as is the case in microfluidics. We find drying kinetics commonly observed for confined geometry, namely a constant period followed by a falling rate period. From visualization of the air/water interface with high resolution, we observe that the drying rate decreases without a drying front progression although this is the usually accepted mechanism for confined geometries. We show with FEM that in our specific geometry the falling rate period is due to changes in the shape of the air-water interface at the free surface where most evaporation occurs. Our simulations show that the sensitivity of the drying rate to the shape of the first air-water interface from the sample free surface implies that slight changes of the wetting or pinning conditions can significantly modify the drying rate. . We look at the drying process in a simple glass channel with dominant capillary effects as is the case in microfluidics. We find drying kinetics commonly observed for confined geometry, namely a constant period followed by a falling rate period. From visualization of the air/water interface with high resolution, we observe that the drying rate decreases without a drying front progression although this is the usually accepted mechanism for confined geometries. We show with FEM that in our specific geometry the falling rate period is due to changes in the shape of the air-water interface at the free surface where most evaporation occurs. Our simulations show that the sensitivity of the drying rate to the shape of the first air-water interface from the sample free surface implies that slight changes of the wetting or pinning conditions can significantly modify the drying rate. Graphical abstract
ArticleNumber	23
Author	Weitz, David A. Faure, Paméla Koehler, Stephan A. Coussot, Philippe Keita, Emmanuel
Author_xml	– sequence: 1 givenname: Emmanuel surname: Keita fullname: Keita, Emmanuel email: emmanuel.keita@ifsttar.fr organization: Laboratoire Navier, Université Paris-Est, School of Engineering and Applied Sciences and Physics Department, Harvard University – sequence: 2 givenname: Stephan A. surname: Koehler fullname: Koehler, Stephan A. organization: School of Engineering and Applied Sciences and Physics Department, Harvard University – sequence: 3 givenname: Paméla surname: Faure fullname: Faure, Paméla organization: Laboratoire Navier, Université Paris-Est – sequence: 4 givenname: David A. surname: Weitz fullname: Weitz, David A. organization: School of Engineering and Applied Sciences and Physics Department, Harvard University – sequence: 5 givenname: Philippe surname: Coussot fullname: Coussot, Philippe organization: Laboratoire Navier, Université Paris-Est
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Snippet	. We look at the drying process in a simple glass channel with dominant capillary effects as is the case in microfluidics. We find drying kinetics commonly... We look at the drying process in a simple glass channel with dominant capillary effects as is the case in microfluidics. We find drying kinetics commonly...
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SubjectTerms	Air Biological and Medical Physics Biophysics Complex Fluids and Microfluidics Complex Systems Engineering Sciences Finite Element Analysis Kinetics Materials Nanotechnology Physical Phenomena Physics Physics and Astronomy Polymer Sciences Regular Article Soft and Granular Matter Surfaces and Interfaces Thin Films Water Wettability Wetting and Drying: Physics and Pattern Formation
Title	Drying kinetics driven by the shape of the air/water interface in a capillary channel
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