Mariagiorgia La Cerva scite author profile

Different computer-based simulation models, able to predict the performance of Reverse ElectroDialysis (RED) systems, are currently used to investigate the potentials of alternative designs, to orient experimental activities and to design/optimize prototypes. The simulation approach described here combines a one-dimensional modelling of a RED stack with a fully three-dimensional finite volume modelling of the electrolyte channels, either planar or equipped with different spacers or profiled membranes. An advanced three-dimensional code was used to provide correlations for the friction coefficient (based on 3-D solutions of the continuity and Navier-Stokes equations) and the Sherwood numbers (based on 3-D solutions of a scalar transport equation), as well as to test simple models for the Ohmic resistances (based on 3-D solutions of a Laplace equation for the electrical potential). These results were integrated with empirical correlations for the transport properties of electrolytes and membranes, and were used as the input for the higher scale model. The overall model was validated by comparison with experimental data obtained in laboratory-scale RED stacks under controlled conditions. This combined approach constitutes a fully predictive, potentially very accurate, and still extremely fast-running, tool for the approximate simulation of all the main variables, suitable for performance prediction and optimization studies

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Determination of limiting current density and current efficiency in electrodialysis units

Cerva

Gurreri

Tedesco³

et al. 2018

Desalination

115

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On some issues in the computational modelling of spacer-filled channels for membrane distillation

et al. 2017

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This study addresses issues which arise in the computational and experimental modelling of flow and heat / mass transfer in membrane distillation and other processes adopting spacer-filled channels the combined effects of the main parameters that characterize the process (notably spacer pitch to channel height ratio l/H, flow attack angle γ and Reynolds number Re) and the applicability of simple correlations; the influence of the spacer's thermal conductivity. In regard to the complex influence of the parameters, Re, l/H and γ were found to interact heavily, making a separate-effect analysis impossible and power-law friction or heat / mass transfer correlations of little use. Thermal conduction in the spacer, even for low-conductivity polymeric spacers (λ≈0.15 Wm -1 K -1 ), was found to be responsible for up to 10% of the total heat transfer;

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Optimization of net power density in Reverse Electrodialysis

Ciofalo

Cerva

Liberto

et al. 2019

Energy

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Modelling and cost analysis of hybrid systems for seawater desalination: Electromembrane pre-treatments for Reverse Osmosis

et al. 2019

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