Determination of the Ion Concentrations in VRFB by Non-Invasive Optical Techniques Due to Chemical Reactions, Complexes, and Side Reactions

The Vanadium redox flow battery has been intensively examined since the 1970s, with researchers looking at its electrochemical time varying electrolyte concentration time variation (both tank and cells, for negative and positive half cells), its thermal time variation, and fluid flow behavior. Chemi...

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Bibliographic Details
Published in:Journal of the Electrochemical Society 2024-02, Vol.171 (2), p.20546
Main Author: Krowne, Clifford M.
Format: Article
Language:English
Subjects:
absorbance
Beer-Lambert law
cuvette cell
negative electrolyte
positive electrolyte
vanadium complex oxide ion
vanadium redox flow battery
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Summary:The Vanadium redox flow battery has been intensively examined since the 1970s, with researchers looking at its electrochemical time varying electrolyte concentration time variation (both tank and cells, for negative and positive half cells), its thermal time variation, and fluid flow behavior. Chemistry behavior of the electrolyte ions have also been intensively examined too. Our focus in this paper is to examine the disturbance and effect of other chemical reactions and constituents to those typically found in the positive electrode electrolyte, while handling the less problematic negative electrode. Appropriate formulas are developed which allow assessment of the size of the effect, and their evaluation indicates something on the order of up to 14%. Therefore, for unambiguous non-invasive optical measurements, knowledge of the disturbance effect, and taking it into account will allow proper concentration determination. This treatment includes a comprehensive examination of identified side reactions which occur due to crossover ions between the electrodes.
ISSN:0013-4651
1945-7111
DOI:10.1149/1945-7111/ad2818