Biphasic numerical simulation of a rotating disc electrochemical cell
Conference Paper
-
- Overview
-
- Research
-
- Identity
-
- Additional Document Info
-
- View All
-
Overview
abstract
-
On electrochemical studies involving forced convection, the cell with rotating disc is the most widely used. Traditionally, Levich equation is used to interpret the information obtained from physical experiments. However, electrochemical results can be accurately interpreted through this equation only if the velocity field near the electrode active face is in accordance with the ideal behavior described by Cochran. In this work, the Computational Fluid Dynamics (CFD) technique was employed to determine the effect of the distance between the electrode active surface and the cell bottom on the cell inner hydrodynamic behavior. Biphasic 3D numerical simulations were performed using the commercial software Fluent. Numerical results were validated with experimental data. A simple rule for the optimal distance between the electrode active surface and the cell bottom is presented in this work. ©The Electrochemical Society.
publication date
published in
Research
keywords
-
3-D numerical simulation; Active surfaces; Biphasic; Commercial software; Electrochemical studies; Experimental data; Hydrodynamic behavior; Ideal behavior; Levich equation; Numerical results; Physical experiments; Rotating disc; Simple rules; Velocity field; Computational fluid dynamics; Computer simulation; Electrolytic cells; Rotation; Three dimensional computer graphics; Velocity; Electrochemical electrodes
Identity
Digital Object Identifier (DOI)
Additional Document Info
start page
end page
volume
issue