Modeling current density distribution in electrochemical systems

Abstract

A numerical method was developed for predicting current density distribution in electrochemical systems of several species at steady-state. The fundamental transport equation consisted a partial differential equation (PDE) involving linear terms of diffusion and laminar convection, and nonlinear terms of ionic migration. The boundary conditions (BCs… (More)

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@inproceedings{Georgiadou2003ModelingCD, title={Modeling current density distribution in electrochemical systems}, author={Maria Georgiadou}, year={2003} }