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Stability and Electrochemical Performance Analysis of an Electrolyte with Na<sup>+</sup> Impurity for a Vanadium Redox Flow Battery in Energy Storage Applications

Muqing Ding, Tao Liu, Yimin Zhang

2020Energy & Fuels18 citationsDOI

Abstract

The effects of Na+ on the stability and electrochemical property of electrolytes are investigated for use in future applications. The V(V), V3.5+, and V(III) electrolytes are instable when the Na+ concentration is over 0.0048 mol L–1 in electrolyte. The increase in Na impurity will lead to an increase in viscosity and a decrease in conductivity, which definitely hinder the diffusion of VO2+/VO2+ and further reduce the electrochemical property of electrolytes. In addition, the temperature adaptability tests of batteries show that when the Na+ concentration is below 0.0048 mol L–1, the vanadium redox flow battery can work successfully in the temperature range −10 to 40 °C. Moreover, it is confirmed that Na/V precipitations physically adhere to the electrode surface, resulting in battery performance degradation.

Topics & Concepts

VanadiumElectrolyteFlow batteryElectrochemistryRedoxBattery (electricity)ImpurityInorganic chemistryMaterials scienceElectrodeChemistryEnergy storageAnalytical Chemistry (journal)ThermodynamicsPhysical chemistryChromatographyPhysicsPower (physics)Organic chemistryAdvanced battery technologies researchAdvanced Battery Technologies ResearchSupercapacitor Materials and Fabrication
Stability and Electrochemical Performance Analysis of an Electrolyte with Na<sup>+</sup> Impurity for a Vanadium Redox Flow Battery in Energy Storage Applications | Litcius