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The stressful way of droplets along single fibre strands : A computational analysis

Bodziony, Francisco 1; Wörner, Martin ORCID iD icon 2; Marschall, Holger 1
1 Technische Universität Darmstadt (TU Darmstadt)
2 Institut für Katalyseforschung und -technologie (IKFT), Karlsruher Institut für Technologie (KIT)

Abstract:

Droplets wetting and moving on fibers are omnipresent in both nature and industry. However, little is known on the local stresses the fiber substrates experiences and, in turn, the local forces acting on those droplets while moving on vertical fiber strands. This work is concerned with disclosing the influence of droplet volume, viscosity, and chemical substrate heterogeneity on droplet motion. For this purpose, we pursue a computational simulation campaign by means of direct numerical simulations resolving all relevant spatial and temporal scales. On the basis of local simulation data, we evaluate and analyze effective viscous dissipation rates as well as viscous and capillary forces. We also assess the validity of an assumption, which is frequently used in correlations for droplets moving on single-fiber strands—neglecting the capillary force. Our computational analysis allows to falsify/verify this assumption for different scenarios and reveals that such correlations have to be applied with care, particularly when it comes to chemical heterogeneity of the fiber substrates.


Verlagsausgabe §
DOI: 10.5445/IR/1000154380/pub
Veröffentlicht am 27.01.2023
Postprint §
DOI: 10.5445/IR/1000154380
Veröffentlicht am 11.01.2023
Originalveröffentlichung
DOI: 10.1063/5.0131032
Scopus
Zitationen: 5
Web of Science
Zitationen: 5
Dimensions
Zitationen: 6
Cover der Publikation
Zugehörige Institution(en) am KIT Institut für Katalyseforschung und -technologie (IKFT)
Publikationstyp Zeitschriftenaufsatz
Publikationsmonat/-jahr 01.2023
Sprache Englisch
Identifikator ISSN: 1070-6631, 1089-7666
KITopen-ID: 1000154380
HGF-Programm 38.03.02 (POF IV, LK 01) Power-based Fuels and Chemicals
Erschienen in Physics of Fluids
Verlag American Institute of Physics (AIP)
Band 35
Heft 1
Seiten Art.-Nr.: 012110
Vorab online veröffentlicht am 06.01.2023
Nachgewiesen in Scopus
Web of Science
Dimensions
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