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Charged Obstacles Augment Electrokinetic Energy Conversion Efficiency

Published 4 Dec 2017 in physics.flu-dyn | (1712.01201v1)

Abstract: In the present study, we delineate the effect of introducing flow obstructions on streaming potential and energy conversion efficiency in a narrow fluidic confinement taking into consideration the wall hydrodynamic slip, finite ionic size, and local permittivity variation effects. We consider two types of the geometric pattern of flow obstacle between which regular pattern turns out to be more effective. It is observed that, implementing structured flow obstacles of radii greater than 10% of channel height and charge density ratio (charge density of flow obstacle surface to that of channel wall) greater than or equal to 9 renders significant enhancement of power generation efficiency. On the other hand, it is effective to operate at a charge density ratio~1 for obstacles radii less than or equal to 10% of channel height. An effective normalized pitch length of magnitude 0.6 or above has to be maintained in order to obtain optimum energy conversion efficiency. We found that implementation of charged flow obstacle causes a significant enhancement of energy conversion efficiency (~18% with regular pattern) comparing to planar slit channel (~4%) without considering wall hydrodynamic slip and steric effects. Introducing finite ionic size and wall hydrodynamic slip effect, pertinent to flows in narrow confinement, leads to further enhancement in electrokinetic energy conversion efficiency.

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