Abstract
Electrosorption is a new emerging technology for micro-polluted water treatment. To gain a more accurate understanding of the mass and charge transfer process of electrosorption, the electrosorption performance of activated carbon fiber (ACF) electrodes with various concentrations was studied. In this paper, quasi-first-order and quasi-second-order dynamic equations, and an intra-particle diffusion equation were used to describe the electrosorption behaviors. It is believed that the electrosorption process is dominated by physical adsorption for ACF material, and the most important rate control steps in this process are intra-diffusion and electromigration steps. Based on the experimental results and modified Donnan model theory, a considerable electrosorption dynamic model which considered the influence of physical adsorption and the intra-diffusion resistance was proposed. This model quantitatively described the salt adsorption and charge storage in the ACF electrode and can fit the experimental data well.
Highlights
Water is an indispensable resource for the development of human society
An electrosorption dynamic model considered the overlap effect of the electric double layer (EDL) and the insupply’s polarity is reversed, the charged ions enriched on the cathode and anode plates tra-diffusion resistance wasthe proposed to quantitatively describe electrosorption are quickly released under effect of the electrostatic force and thethe tangential force of behaviors of activated carbon fiber (ACF)
EDLs, the transport model must couple to an it is ion necessary for us to carry out experiments to determine which structure model, which canisrelate local for potential drop across the in corrections the porous electric double layer model morethe suitable the ACF
Summary
Water is an indispensable resource for the development of human society. most of the Earth’s surface is covered by water, due to technical and economic reasons, the freshwater that can be used by humans only accounts for 0.26% of the Earth’s total water, and only 0.007% of the total water can be directly used by humans [1]. Once the external power supply is removed or the power supply’s polarity is reversed, the charged ions enriched on the cathode and anode plates are quickly released under the effect of the electrostatic force and the 2tangential of 13 force of the water flow [10]. This process can realize the recovery of the adsorption capacity of the electrode plate in a short time, and the electric adsorption device can be reused. The innovation of porous materials has always been a research hotspot in the related
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