Title

Microdroplet Evaporation With A Forced Pinned Contact Line

Abstract

Experimental and numerical investigations of water microdroplet evaporation on heated, laser patterned polymer substrates are reported. The study is focused on both (i) controlling a droplets contact line dynamics during evaporation to identifying how the contact line influences evaporative heat transfer and (ii) validating numerical simulations with experimental data. Droplets are formed on the polymer surface using a bottom-up methodology, where a computer-controlled syringe pump feeds water through a 200 diameter fluid channel within the heated polymer substrate. This methodology facilitates precise control of the droplets growth rate, size, and inlet temperature. In addition to this microchannel supply line, the substrate surfaces are laser patterned with a moatlike trench around the fluid-channel outlet, adding additional control of the droplets contact line motion, area, and contact angle. In comparison to evaporation on a nonpatterned polymer surface, the laser patterned trench increases contact line pinning time by ∼60% of the droplets lifetime. Numerical simulations of diffusion controlled evaporation are compared the experimental data with a pinned contact line. These diffusion based simulations consistently over predict the droplets evaporation rate. In efforts to improve this model, a temperature distribution along the droplets liquid-vapor interface is imposed to account for the concentration distribution of saturated vapor along the interface, which yields improved predictions within 2-4% of the experimental data throughout the droplets lifetime on heated substrates. © 2014 American Chemical Society.

Publication Date

9-2-2014

Publication Title

Langmuir

Volume

30

Issue

34

Number of Pages

10548-10555

Document Type

Article

Personal Identifier

scopus

DOI Link

https://doi.org/10.1021/la501770g

Socpus ID

84906875729 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/84906875729

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