Modeling continuous flow-electrode capacitive deionization processes with ion-exchange membranes

Flow-electrode Capacitive Deionization (FCDI) is a membrane based electrically driven desalination method combining ion-exchange membranes and carbon based flow electrodes. The flow electrodes function as a pumpable ion storage and enable a fully continuous operation of FCDI. In contrast, classical...

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Bibliographic Details
Published in:Journal of membrane science 2018-01, Vol.546, p.188-196
Main Authors: Rommerskirchen, Alexandra, Ohs, Burkhard, Hepp, Karl Arturo, Femmer, Robert, Wessling, Matthias
Format: Article
Language:English
Subjects:
Capacitive deionization
Flow electrodes
Ion exchange membranes
Process model
Water desalination
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Summary:Flow-electrode Capacitive Deionization (FCDI) is a membrane based electrically driven desalination method combining ion-exchange membranes and carbon based flow electrodes. The flow electrodes function as a pumpable ion storage and enable a fully continuous operation of FCDI. In contrast, classical capacitive deionization processes are operated in cycles. Yet another advantage of FCDI is the ability to treat high salinity water streams. Until now most FCDI related works are of experimental nature, a process model is needed to obtain a better understanding of the physical dependencies. We report a process model for continuous, steady state FCDI processes operated at constant voltage. Processes such as a continuous two-module FCDI process or processes based on a single FCDI desalination module operated in single-pass mode can be simulated. The storage of ions in the pores of the carbon particles is modeled using the modified Donnan model. Simulations performed with this model match experimental results well and were fitted using an apparent Stern capacity as the only fitting parameter. Influences of the module geometry and process parameters can be investigated, such as feed flow rates and flow electrode composition. The model predicts correctly a strong influence of the flow electrode flow rate on the desalination performance. [Display omitted] •A process model for continuous, steady state FCDI processes is proposed.•FCDI combines CDI with flow electrodes and IEMs for water treatment.•Ion storage in EDLs modeled employing the modified Donnan model.•Model useful for investigating impact of cell geometry, electrode composition etc.•Good agreement of simulation and experimental results.
ISSN:0376-7388
1873-3123
DOI:10.1016/j.memsci.2017.10.026