Finite element analysis of electrohydrodynamic time-dependent deformation of dielectric drop under uniform DC electric field

Takuya Hirata; Tsutomu Kikuchi; Takao Tsukada; Mitsunori Hozawa

doi:10.1252/jcej.33.160

Finite element analysis of electrohydrodynamic time-dependent deformation of dielectric drop under uniform DC electric field

Takuya Hirata, Tsutomu Kikuchi, Takao Tsukada, Mitsunori Hozawa

New Industry Creation Hatchery Center (NICHe)

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

10 Citations (Scopus)

Abstract

We present a numerical procedure based on the finite element method in combination with the Lagrangian technique to predict the time-dependent deformation of a dielectric drop which is suspended stationarily in another dielectric liquid under the influence of a uniform DC electric field. The effects of the electric field strength and the physical properties on the drop deformation are then shown. The computed results reveal that Taylor's circulation appears in the drop in addition to the hyperbolic flow pattern due to the deformation, depending on the physical properties of the drop and continuous phases, and affects the drop deformation.

Original language	English
Pages (from-to)	160-167
Number of pages	8
Journal	JOURNAL of CHEMICAL ENGINEERING of JAPAN
Volume	33
Issue number	1
DOIs	https://doi.org/10.1252/jcej.33.160
Publication status	Published - 2000 Feb

Keywords

Dielectric drop
Electrohydrodynamics
Finite element method
Leaky dielectric model
Time-dependent deformation

ASJC Scopus subject areas

Chemistry(all)
Chemical Engineering(all)

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10.1252/jcej.33.160

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title = "Finite element analysis of electrohydrodynamic time-dependent deformation of dielectric drop under uniform DC electric field",

abstract = "We present a numerical procedure based on the finite element method in combination with the Lagrangian technique to predict the time-dependent deformation of a dielectric drop which is suspended stationarily in another dielectric liquid under the influence of a uniform DC electric field. The effects of the electric field strength and the physical properties on the drop deformation are then shown. The computed results reveal that Taylor's circulation appears in the drop in addition to the hyperbolic flow pattern due to the deformation, depending on the physical properties of the drop and continuous phases, and affects the drop deformation.",

keywords = "Dielectric drop, Electrohydrodynamics, Finite element method, Leaky dielectric model, Time-dependent deformation",

author = "Takuya Hirata and Tsutomu Kikuchi and Takao Tsukada and Mitsunori Hozawa",

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T1 - Finite element analysis of electrohydrodynamic time-dependent deformation of dielectric drop under uniform DC electric field

AU - Hirata, Takuya

AU - Kikuchi, Tsutomu

AU - Tsukada, Takao

AU - Hozawa, Mitsunori

PY - 2000/2

Y1 - 2000/2

N2 - We present a numerical procedure based on the finite element method in combination with the Lagrangian technique to predict the time-dependent deformation of a dielectric drop which is suspended stationarily in another dielectric liquid under the influence of a uniform DC electric field. The effects of the electric field strength and the physical properties on the drop deformation are then shown. The computed results reveal that Taylor's circulation appears in the drop in addition to the hyperbolic flow pattern due to the deformation, depending on the physical properties of the drop and continuous phases, and affects the drop deformation.

AB - We present a numerical procedure based on the finite element method in combination with the Lagrangian technique to predict the time-dependent deformation of a dielectric drop which is suspended stationarily in another dielectric liquid under the influence of a uniform DC electric field. The effects of the electric field strength and the physical properties on the drop deformation are then shown. The computed results reveal that Taylor's circulation appears in the drop in addition to the hyperbolic flow pattern due to the deformation, depending on the physical properties of the drop and continuous phases, and affects the drop deformation.

KW - Dielectric drop

KW - Electrohydrodynamics

KW - Finite element method

KW - Leaky dielectric model

KW - Time-dependent deformation

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JF - Journal of Chemical Engineering of Japan

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Finite element analysis of electrohydrodynamic time-dependent deformation of dielectric drop under uniform DC electric field

Abstract

Keywords

ASJC Scopus subject areas

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