Transient effects on magnetohydrodynamic couette flow with rotation: Accelerated motion

A. K. Singh; Nirmal C. Sacheti; Pallath Chandran

doi:10.1016/0020-7225(94)90155-4

Transient effects on magnetohydrodynamic couette flow with rotation: Accelerated motion

A. K. Singh^*, Nirmal C. Sacheti, Pallath Chandran

^*Corresponding author for this work

Mathematics & Statistics

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

40 Citations (Scopus)

Abstract

The transient features of the Couette flow of an electrically conducting fluid subject to rotation and magnetic field have been analysed when one of the plates has been set into uniformly accelerated motion. The resulting boundary value problem has been solved exactly and explicit expressions for the velocity and skin friction have been obtained. The variations of these with respect to the Hartmann and Ekman numbers have been shown. It is seen that the primary velocity increases with magnetic field and decreases with rotation, while the magnitude of secondary velocity has the opposite effect with respect to these processes.

Original language	English
Pages (from-to)	133-139
Number of pages	7
Journal	International Journal of Engineering Science
Volume	32
Issue number	1
DOIs	https://doi.org/10.1016/0020-7225(94)90155-4
Publication status	Published - Jan 1994

ASJC Scopus subject areas

Materials Science(all)
Engineering(all)
Mechanics of Materials
Mechanical Engineering

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abstract = "The transient features of the Couette flow of an electrically conducting fluid subject to rotation and magnetic field have been analysed when one of the plates has been set into uniformly accelerated motion. The resulting boundary value problem has been solved exactly and explicit expressions for the velocity and skin friction have been obtained. The variations of these with respect to the Hartmann and Ekman numbers have been shown. It is seen that the primary velocity increases with magnetic field and decreases with rotation, while the magnitude of secondary velocity has the opposite effect with respect to these processes.",

author = "Singh, {A. K.} and Sacheti, {Nirmal C.} and Pallath Chandran",

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AU - Chandran, Pallath

PY - 1994/1

Y1 - 1994/1

N2 - The transient features of the Couette flow of an electrically conducting fluid subject to rotation and magnetic field have been analysed when one of the plates has been set into uniformly accelerated motion. The resulting boundary value problem has been solved exactly and explicit expressions for the velocity and skin friction have been obtained. The variations of these with respect to the Hartmann and Ekman numbers have been shown. It is seen that the primary velocity increases with magnetic field and decreases with rotation, while the magnitude of secondary velocity has the opposite effect with respect to these processes.

AB - The transient features of the Couette flow of an electrically conducting fluid subject to rotation and magnetic field have been analysed when one of the plates has been set into uniformly accelerated motion. The resulting boundary value problem has been solved exactly and explicit expressions for the velocity and skin friction have been obtained. The variations of these with respect to the Hartmann and Ekman numbers have been shown. It is seen that the primary velocity increases with magnetic field and decreases with rotation, while the magnitude of secondary velocity has the opposite effect with respect to these processes.

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Transient effects on magnetohydrodynamic couette flow with rotation: Accelerated motion

Abstract

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