Yongbo Liu scite author profile

In recent years, electrokinetic energy conversion for pressure-driven flow through hydrophobic nanochannels has attracted increasing attention from numerous researchers. However, the reported electrokinetic energy conversion efficiencies may be overestimated owing to neglect of the surface charge mobility effect of hydrophobic nanochannels. In fact, both the effective slip length and the induced streaming potential are influenced by the surface charge mobility. In this paper, a theoretical model for electrokinetic energy conversion through graphene nanochannels is developed with consideration of the influence of surface charge mobility. The surface charge density σ s varies from very low to considerably high. A numerical solution to the electric potential is obtained by using the finite difference method. We also derive analytical solutions for two limiting cases, namely, the case with a low zeta potential and the case without considerable electric double layer overlap. Our results reveal that consideration of the surface charge mobility leads to a 44% reduction in the maximum conversion efficiency. The predicted maximum efficiency is approximately 5.9% at σ s=−0.0162 C/m2. Our results may prove useful for predicting and optimizing the electrokinetic conversion efficiency in hydrophobic nanochannels.

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Electrochemomechanical energy conversion efficiency in curved rectangular nanochannels

Liu

Jian

Yang

2020

Energy

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Rotating electroosmotic flows in soft parallel plate microchannels

Jian

Liu

2019

Appl. Math. Mech.-Engl. Ed.

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Electroviscous effect on electromagnetohydrodynamic flows of Maxwell fluids in parallel plate microchannels

Liu

Jian

2019

Appl. Math. Mech.-Engl. Ed.

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Yongbo Liu

Entropy generation of electromagnetohydrodynamic (EMHD) flow in a curved rectangular microchannel

Surface-charge-mobility-modulated electrokinetic energy conversion in graphene nanochannels

Electrochemomechanical energy conversion efficiency in curved rectangular nanochannels

Rotating electroosmotic flows in soft parallel plate microchannels

Electroviscous effect on electromagnetohydrodynamic flows of Maxwell fluids in parallel plate microchannels

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