Power generation from a pH-regulated nanochannel through reverse electrodialysis: Effects of nanochannel shape and non-uniform H+ distribution
Journal
Electrochimica Acta
Journal Volume
294
Pages
84-92
Date Issued
2019
Author(s)
Abstract
The power generated from the Gibbs free energy of mixing through reverse electrodialysis (RED) is a promising renewable energy of great potential. In this study the performance of a nanochannel having a pH-regulated surface in RED is examined, focusing on the influence of the bulk salt concentration, the distribution of H+, and the nanochannel size and its shape. Taking account of the effect of osmotic flow, we consider three types of nanochannel: bullet-shaped, conical, and trumpet-shaped nanochannels. Because the smaller the nanochannel space the more significant the degree of electric double layer overlapping the trumpet-shaped nanochannel has the best ion selectivity. As the ratio of (nanochannel length/curvature radius) varies the maximum power generated from a bullet-shaped nanochannel has a local maximum. This can be explained by the associated diffusion potential and the electric current passing through it. The results gathered provide desirable and necessary information for designing RED devices. In particular, the maximum power generation can be achieved by choosing appropriately the shape and the size of a nanochannel, and the bulk concentration ratio. ? 2018 Elsevier Ltd
Subjects
Nanochannel shape
pH-regulated nanochannel
Power generation
Reverse electrodialysis
SDGs
Other Subjects
Free energy; Gibbs free energy; Power generation; Bulk concentration; Diffusion potential; Electric double layer; Gibbs free energy of mixing; Nano channels; Renewable energies; Reverse electrodialysis; Salt concentration; Electrodialysis
Type
journal article