Contribution of solid–liquid–vapor interface to droplet evaporation

Muhammad Mohib UrRehman; Nagayama, Gyoko; 長山, 暁子

doi:https://doi.org/10.1016/j.colsurfa.2022.130419

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Contribution of solid–liquid–vapor interface to droplet evaporation

http://hdl.handle.net/10228/0002001014

名前 / ファイル	ライセンス	アクション
10404942.pdf (2.5 MB)

Item type

学術雑誌論文 = Journal Article(1)

公開日

2024-11-06

資源タイプ

資源タイプ識別子

http://purl.org/coar/resource_type/c_6501

資源タイプ

journal article

タイトル

Contribution of solid–liquid–vapor interface to droplet evaporation

言語

その他のタイトル

Contribution of Solid–Liquid–Vapor Interface to Droplet Evaporation

言語

eng

著者

Muhammad Mohib UrRehman
長山, 暁子

WEKO 15351
e-Rad_Researcher 60370029
Scopus著者ID 6507439340
ORCiD 0000-0002-6836-9387
九工大研究者情報 28

en	Nagayama, Gyoko
ja	長山, 暁子

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内容記述タイプ

Abstract

内容記述

A solid–liquid–vapor (slv) interface is formed by a capillary and disjoining pressure gradient near the macroscopic contact line of a droplet. At a micro/nanostructured surface, the scale of the slv interface increases, such that it can significantly contribute toward droplet evaporation. However, the wettability of the micro/nanostructured surface and droplet volume may affect this contribution and warrant further clarification. In this study, the evaporation rate of a droplet at a macroscopic liquid–vapor (lv) interface was derived theoretically and that at fabricated surfaces was measured experimentally. Considering droplet mass conservation, the evaporation rate at the slv interface was estimated based on the difference between the experimental results and theoretical evaporation rate at the lv interface. The corresponding scale of the slv interface was estimated and further validated with experiments. It was found that the theoretical evaporation rate agreed with the experimental results, when the scale of the slv interface was negligible. For microstructured surfaces, the scale of the slv interface was estimated to be 253–940 μm for a 4 μL water droplet, significantly contributing toward the evaporation rate, in addition to the evaporation at the lv interface. The evaporation rate at the slv interface accounted for 16–48% of the total droplet evaporation rate. The scale of the slv interface and evaporation rate increased with a decrease in the initial contact angle or an increase in the droplet volume. The results of this study are expected to contribute toward improvements in practical engineering and medical applications using micro/nanostructured surfaces for droplet evaporation.

言語

書誌情報

en : Colloids and Surfaces A: Physicochemical and Engineering Aspects

巻 656, 号 Part A, p. 130419, 発行日 2022-11-02

出版社

出版者

Elsevier

言語

DOI

識別子タイプ

DOI

NCID

収録物識別子タイプ

NCID

収録物識別子

AA10892561

ISSN

収録物識別子タイプ

PISSN

収録物識別子

0927-7757

ISSN

収録物識別子タイプ

EISSN

収録物識別子

1873-4359

著作権関連情報

権利情報

キーワード

主題Scheme

Other

主題

Droplet

キーワード

主題Scheme

Other

主題

Evaporation

キーワード

主題Scheme

Other

主題

Wetting

キーワード

主題Scheme

Other

主題

Liquid–vapor interface

キーワード

主題Scheme

Other

主題

Solid–liquid–vapor interface

出版タイプ

出版タイプResource

http://purl.org/coar/version/c_ab4af688f83e57aa

査読の有無

値

yes

研究者情報

URL

https://hyokadb02.jimu.kyutech.ac.jp/html/28_ja.html

論文ID（連携）

値

10404942

連携ID

値

10946

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Contribution of solid–liquid–vapor interface to droplet evaporation

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