Inverse problem of capillary filling

The inverse problem of capillary filling, as defined in this work, consists in determining the capillary radius profile from experimental data of the meniscus position l as a function of time t. This problem is central in diverse applications, such as the characterization of nanopore arrays or the d...

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Bibliographic Details
Published in:Physical review letters 2014-04, Vol.112 (13), p.134502, Article 134502
Main Authors: Elizalde, Emanuel, Urteaga, Raúl, Koropecki, Roberto R, Berli, Claudio L A
Format: Article
Language:English
Subjects:
Anodizing
Arrays
Capillarity
Imbibition
Inverse problems
Kinematics
Mathematical analysis
Nanostructure
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Summary:The inverse problem of capillary filling, as defined in this work, consists in determining the capillary radius profile from experimental data of the meniscus position l as a function of time t. This problem is central in diverse applications, such as the characterization of nanopore arrays or the design of passive transport in microfluidics; it is mathematically ill posed and has multiple solutions; i.e., capillaries with different geometries may produce the same imbibition kinematics. Here a suitable approach is proposed to solve this problem, which is based on measuring the imbibition kinematics in both tube directions. Capillary filling experiments to validate the calculation were made in a wide range of length scales: glass capillaries with a radius of around 150  μm and anodized alumina membranes with a pores radius of around 30  nm were used. The proposed method was successful in identifying the radius profile in both systems. Fundamental aspects also emerge in this study, notably the fact that the l(t)∝t1/2 kinematics (Lucas-Washburn relation) is not exclusive of uniform cross-sectional capillaries.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.112.134502