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Salinity gradient power by reverse electrodialysis: effect of model parameters on electrical power output
Brauns, E. (2009). Salinity gradient power by reverse electrodialysis: effect of model parameters on electrical power output. Desalination 237(1-3): 378-391. https://dx.doi.org/10.1016/j.desal.2008.10.003
In: Desalination. Elsevier: Amsterdam. ISSN 0011-9164; e-ISSN 1873-4464, more
Peer reviewed article  

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Author keywords
    Salinity; Gradient; Power; Reverse; Electrodialysis; Model; Simulation;Solar; Energy; Potable; Water

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Abstract
    Salinity gradient power (SGP) is based on the chemical potentia I difference between concentrated and dilute salt solutions. Reverse electrodialysis (RED) can thus be used to produce electricity by a SGP-RED unit. In principle, a highly concentrated solution can be recovered from a seawater desalination unit (SWDU) and its concentration further increased using solar energy. The SWDU itself can be based on (solar) evaporation, reverse osmosis or other methods. When thus combining a SGP-RED unit, a SWDU and solar energy, a hybrid system can be considered which involves the concentrated salt solution and seawater(/brackish water) as the "dilute" solution. However, key to the success of the hybrid concept is an adequate design of the SGP-RED unit. A basic SGP-RED process model has previously been published. This model was expanded by two distinct dilute and concentrate compartment thicknesses and implemented in a solver to investigate the effect of specific parameters. From these simulations, first recommendations have resulted with respect to the design of the SGP-RED unit (membrane and dilute compartment thickness, temperature) and were reported. Final specifications regarding an optimal SGP-RED unit can only be obtained through a dedicated research program. This would enable the evaluation of the overall technical feasibilities related to the production/performance of thin ion-conductive membranes, an adequate SGP-RED stack design and the experimental verification of the model simulations.

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