Rotating electrohydrodynamic flow in a suspended liquid film

Research output: Working paper

Standard

Rotating electrohydrodynamic flow in a suspended liquid film. / Shiryaeva, E.V.; Zhukov, M.Yu.; Vladimirov, Vladimir A.

2009.

Research output: Working paper

Harvard

Shiryaeva, EV, Zhukov, MY & Vladimirov, VA 2009 'Rotating electrohydrodynamic flow in a suspended liquid film'.

APA

Shiryaeva, E. V., Zhukov, M. Y., & Vladimirov, V. A. (2009). Rotating electrohydrodynamic flow in a suspended liquid film.

Vancouver

Shiryaeva EV, Zhukov MY, Vladimirov VA. Rotating electrohydrodynamic flow in a suspended liquid film. 2009 Feb.

Author

Shiryaeva, E.V. ; Zhukov, M.Yu. ; Vladimirov, Vladimir A. / Rotating electrohydrodynamic flow in a suspended liquid film. 2009.

Bibtex - Download

@techreport{0ea705f8b6d64bfd8cc47b8076fb2537,
title = "Rotating electrohydrodynamic flow in a suspended liquid film",
abstract = "The mathematical model of a rotating electrohydrodynamic flow in a thin suspended liquid film is proposed and studied. The motion is driven by the given di.erence of potentials in one direction and constant external electrical field E in another direction in the plane of a film. To derive the model we employ the spatial averaging over the normal coordinate to a film that leads to the average Reynolds stress that is proportional to |E|^3. This stress generates tangential velocity in the vicinity of the edges of a film that, in turn, causes the rotational motion of a liquid. The proposed model is aimed to explain the experimental observations of the liquid film motor.",
keywords = "Fluid Dynamics",
author = "E.V. Shiryaeva and M.Yu. Zhukov and Vladimirov, {Vladimir A.}",
year = "2009",
month = "2",
language = "English",
type = "WorkingPaper",

}

RIS (suitable for import to EndNote) - Download

TY - UNPB

T1 - Rotating electrohydrodynamic flow in a suspended liquid film

AU - Shiryaeva, E.V.

AU - Zhukov, M.Yu.

AU - Vladimirov, Vladimir A.

PY - 2009/2

Y1 - 2009/2

N2 - The mathematical model of a rotating electrohydrodynamic flow in a thin suspended liquid film is proposed and studied. The motion is driven by the given di.erence of potentials in one direction and constant external electrical field E in another direction in the plane of a film. To derive the model we employ the spatial averaging over the normal coordinate to a film that leads to the average Reynolds stress that is proportional to |E|^3. This stress generates tangential velocity in the vicinity of the edges of a film that, in turn, causes the rotational motion of a liquid. The proposed model is aimed to explain the experimental observations of the liquid film motor.

AB - The mathematical model of a rotating electrohydrodynamic flow in a thin suspended liquid film is proposed and studied. The motion is driven by the given di.erence of potentials in one direction and constant external electrical field E in another direction in the plane of a film. To derive the model we employ the spatial averaging over the normal coordinate to a film that leads to the average Reynolds stress that is proportional to |E|^3. This stress generates tangential velocity in the vicinity of the edges of a film that, in turn, causes the rotational motion of a liquid. The proposed model is aimed to explain the experimental observations of the liquid film motor.

KW - Fluid Dynamics

M3 - Working paper

BT - Rotating electrohydrodynamic flow in a suspended liquid film

ER -