J. Seyed-Yagoobi scite author profile

Electrohydrodynamic (EHD) phenomena can be applied to enhance and control mass and heat transfer in both terrestrial and microgravity environments. The emerging EHD conduction pumping technique shows its potential as an active control method of the flow distribution. The EHD conduction pumping is associated with the heterocharge layers of finite thickness in the vicinity of the electrodes, which are based on the process of dissociation of the neutral electrolytic species and recombination of the generated ions. This paper theoretically and experimentally studies the EHD conduction phenomenon in a dielectric liquid. The analytical solutions provide the non-dimensional distributions of electric field and charge density in the vicinity of the electrodes. The characteristic heterocharge layer thickness is also theoretically predicted. Measured pressure heads and current levels are compared with the theoretical results. The EHD conduction pump presented here is capable of electrically driving and controlling the dielectric liquid flow motion in a single-phase loop.

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An experimental study of fluid mechanics and heat transfer in an impinging slot jet flow

Narayanan

Seyed-Yagoobi

Page

2004

International Journal of Heat and Mass Transfer

152

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Enhancement of Heat Transfer and Mass Transport in Single-Phase and Two-Phase Flows with Electrohydrodynamics

Seyed-Yagoobi

Bryan

1999

111

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J. Seyed-Yagoobi

Electrohydrodynamic pumping of dielectric liquids

Electrohydrodynamically induced dielectric liquid flow through pure conduction in point/plane geometry-theory

Understanding of electrohydrodynamic conduction pumping phenomenon

An experimental study of fluid mechanics and heat transfer in an impinging slot jet flow

Enhancement of Heat Transfer and Mass Transport in Single-Phase and Two-Phase Flows with Electrohydrodynamics

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