Effect of confinement on droplet deformation in shear flow

Haobo Hua; Yibao Li; Jaemin Shin; Ha Kyu Song; Junseok Kim

doi:10.1080/10618562.2013.857406

Effect of confinement on droplet deformation in shear flow

Haobo Hua
, Yibao Li
, Jaemin Shin
, Ha Kyu Song
, Junseok Kim

Research output: Contribution to journal › Article › peer-review

13 Scopus citations

Abstract

The dynamics of a single droplet under shear flow between two parallel plates is investigated by using the immersed boundary method. The immersed boundary method is appropriate for simulating the drop-ambient fluid interface. We apply a volume-conserving method using the normal vector of the surface to prevent mass loss of the droplet. In addition, we present a surface remeshing algorithm to cope with the distortion of droplet interface points caused by the shear flow. This mesh quality improvement in conjunction with the volume-conserving algorithm is particularly essential and critical for long time evolutions. We study the effect of wall confinement on the droplet dynamics. Numerical simulations show good agreement with previous experimental results and theoretical models.

Original language	English
Pages (from-to)	317-331
Number of pages	15
Journal	International Journal of Computational Fluid Dynamics
Volume	27
Issue number	8-10
DOIs	https://doi.org/10.1080/10618562.2013.857406
State	Published - Dec 2013
Externally published	Yes

Keywords

droplet deformation
immersed boundary method
remeshing
shear flow
volume conserving
wall effect

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10.1080/10618562.2013.857406

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title = "Effect of confinement on droplet deformation in shear flow",

abstract = "The dynamics of a single droplet under shear flow between two parallel plates is investigated by using the immersed boundary method. The immersed boundary method is appropriate for simulating the drop-ambient fluid interface. We apply a volume-conserving method using the normal vector of the surface to prevent mass loss of the droplet. In addition, we present a surface remeshing algorithm to cope with the distortion of droplet interface points caused by the shear flow. This mesh quality improvement in conjunction with the volume-conserving algorithm is particularly essential and critical for long time evolutions. We study the effect of wall confinement on the droplet dynamics. Numerical simulations show good agreement with previous experimental results and theoretical models.",

keywords = "droplet deformation, immersed boundary method, remeshing, shear flow, volume conserving, wall effect",

author = "Haobo Hua and Yibao Li and Jaemin Shin and Song, \{Ha Kyu\} and Junseok Kim",

year = "2013",

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language = "英语",

volume = "27",

pages = "317--331",

journal = "International Journal of Computational Fluid Dynamics",

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TY - JOUR

T1 - Effect of confinement on droplet deformation in shear flow

AU - Hua, Haobo

AU - Li, Yibao

AU - Shin, Jaemin

AU - Song, Ha Kyu

AU - Kim, Junseok

PY - 2013/12

Y1 - 2013/12

N2 - The dynamics of a single droplet under shear flow between two parallel plates is investigated by using the immersed boundary method. The immersed boundary method is appropriate for simulating the drop-ambient fluid interface. We apply a volume-conserving method using the normal vector of the surface to prevent mass loss of the droplet. In addition, we present a surface remeshing algorithm to cope with the distortion of droplet interface points caused by the shear flow. This mesh quality improvement in conjunction with the volume-conserving algorithm is particularly essential and critical for long time evolutions. We study the effect of wall confinement on the droplet dynamics. Numerical simulations show good agreement with previous experimental results and theoretical models.

AB - The dynamics of a single droplet under shear flow between two parallel plates is investigated by using the immersed boundary method. The immersed boundary method is appropriate for simulating the drop-ambient fluid interface. We apply a volume-conserving method using the normal vector of the surface to prevent mass loss of the droplet. In addition, we present a surface remeshing algorithm to cope with the distortion of droplet interface points caused by the shear flow. This mesh quality improvement in conjunction with the volume-conserving algorithm is particularly essential and critical for long time evolutions. We study the effect of wall confinement on the droplet dynamics. Numerical simulations show good agreement with previous experimental results and theoretical models.

KW - droplet deformation

KW - immersed boundary method

KW - remeshing

KW - shear flow

KW - volume conserving

KW - wall effect

UR - https://www.scopus.com/pages/publications/84894899509

U2 - 10.1080/10618562.2013.857406

DO - 10.1080/10618562.2013.857406

M3 - 文章

AN - SCOPUS:84894899509

SN - 1061-8562

VL - 27

SP - 317

EP - 331

JO - International Journal of Computational Fluid Dynamics

JF - International Journal of Computational Fluid Dynamics

IS - 8-10

ER -

Effect of confinement on droplet deformation in shear flow

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Keywords

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