A numerical model for a soluble lead-acid flow battery comprising a three-dimensional honeycomb-shaped positive electrode

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• 作者：Alex ; re Oury ; Angel Kirchev ; Yann Bultel
• 关键词：Soluble lead-acid flow battery ; Simulation ; Current distribution ; Honeycomb-shaped electrode
• 刊名：Journal of Power Sources
• 出版年：2014
• 出版时间：15 January, 2014
• 年：2014
• 卷：246
• 期：Complete
• 页码：703-718
• 全文大小：2160 K

文摘

A novel reactor design is proposed for the soluble lead-acid flow battery (SLFB), in which a three-dimensional honeycomb-shaped positive PbO₂-electrode is sandwiched between two planar negative electrodes. A two-dimensional stationary model is developed to predict the electrochemical behaviour of the cell, especially the current distribution over the positive structure and the cell voltage, as a function of the honeycomb dimensions and the electrolyte composition. The model includes several experimentally-based parameters measured over a wide range of electrolyte compositions. The results show that the positive current distribution is almost entirely determined by geometrical effects, with little influence from the hydrodynamic. It is also suggested that an increase in the electrolyte acidity diminishes the overvoltage during discharge but leads at the same time to a more heterogeneous reaction rate distribution on account of the faster kinetics of PbO₂ dissolution. Finally, the cycling of experimental mono-cells is performed and the voltage response is in fairly good accordance with the model predictions.