Modelaci\'on y Visualizaci\'on Tridimensional Interactiva de Variables El\'ectricas en Celdas de Electro-Obtenci\'on con Electrodos Bipolares

TL;DR

This paper introduces a 3D computational model and visualization tool for analyzing electrical variables in electro-winning cells with floating bipolar electrodes, improving accuracy and handling complex geometries.

Contribution

Development of a novel 3D simulation model and analytical method for floating electrodes, enhancing accuracy and applicability in electrochemical system analysis.

Findings

Effective simulation of complex geometries

Improved potential estimation accuracy

Interactive 3D visualization of vector fields

Abstract

The use of floating bipolar electrodes in copper electro-winning cells represents an emerging technology that promises economic and operational impacts. This article presents a computational tool designed for the simulation and analysis of these electrochemical systems. Based on the generalization and optimization of an existing 2D finite difference model for calculating electrical variables in rectangular cells, a new 3D model capable of processing complex geometries, not necessarily rectangular, has been developed. At the same time, a new analytical method for estimating potentials in floating electrodes is introduced, overcoming the inaccuracies of previous heuristic approaches. The analysis of the results is supported by an interactive visualization technique of three-dimensional vector fields as flow lines.