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Magnetohydrodynamic Moving Liquid Plug Within a Microchannel: Analytical Solutions

Mustafa Türkyılmazoğlu

2020Journal of Biomechanical Engineering21 citationsDOI

Abstract

The wide applications of plug flows in microscale in science and engineering help them attract a great deal recent interest. An analytical study is undertaken here to study the impacts of a transversely applied external uniform magnetic field affecting the motion of liquid in the plug in terms of hydrodynamic mixing properties. The well-known symmetric vortex structure occurring in a long plug with moderate aspect ratio is observed to be preserved, while the recirculation phenomenon is highly affected by the action of the magnetic field. The decelerating feature of Lorentz force on the liquid motion is illuminated by reducing the strength of the recirculating vortex moving towards the upper and lower walls. The effects of magnetic field on the flow resistance of the liquid plug as well as on the plug circulation rate and on the axial flux are also clarified. The liquid plug considered here is shown to be fully consistent with the continuous liquid flow in a channel whose exact solution is further extracted.

Topics & Concepts

Spark plugMagnetohydrodynamic driveMechanicsPlug flowMicrochannelVortexLorentz forceMicroscale chemistryMagnetic fieldMagnetohydrodynamicsOpen-channel flowMixing (physics)Flow (mathematics)Magnetic fluxPhysicsClassical mechanicsMaterials scienceThermodynamicsMathematicsQuantum mechanicsMathematics educationInnovative Microfluidic and Catalytic Techniques InnovationMicrofluidic and Capillary Electrophoresis ApplicationsElectrowetting and Microfluidic Technologies
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