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Improving the Performance of an All-Vanadium Redox Flow Battery under Imbalance Conditions: Online Dynamic Optimization Approach

Prathak Jienkulsawad, Tossabhorn Jirabovornwisut, Yong‐Song Chen, Amornchai Arpornwichanop

2020ACS Sustainable Chemistry & Engineering35 citationsDOI

Abstract

During the operation of an all-vanadium redox flow battery (VRFB), the electrolyte flow of vanadium is a crucial operating parameter, affecting both the system performance and operational costs. Thus, this study aims to develop an on-line optimal operational strategy of the VRFB. A dynamic model of the VRFB based on the mass transport equation coupled with electrochemical kinetics and a vanadium ionic diffusion is adopted to determine the optimal flow rate of the vanadium electrolyte by solving an on-line dynamic optimization problem, taking into account the battery capacity degradation due to electrolyte imbalance. Based on the measurement of modified open-circuit voltage, the extended Kalman filter (EKF) is implemented to estimate a change in the concentration of vanadium, which is used to on-line update the optimal vanadium flow rate. The results show that the on-line optimization of the vanadium flow rate incorporated with the EKF estimator can enhance the system efficiency (7.4% increase in state of charge) when the VRFB is operated under the intermittent current density. Also, it can prevent the battery voltage from reaching the limiting voltage before the battery achieves the desired state of charge.

Topics & Concepts

Flow batteryVanadiumState of chargeBattery (electricity)Control theory (sociology)ElectrolyteMaterials scienceExtended Kalman filterVoltageKalman filterComputer scienceChemistryEngineeringInorganic chemistryElectrodeElectrical engineeringThermodynamicsPower (physics)PhysicsArtificial intelligencePhysical chemistryControl (management)Advanced battery technologies researchAdvanced Battery Technologies ResearchElectric Vehicles and Infrastructure
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