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Direct measurement of vanadium cross-over in an operating redox flow batterySing, David Charles 15 November 2013 (has links)
A redox flow battery (RFB) is an electrochemical energy storage device in which the storage medium is in the form of liquid electrolyte, which is stored in external reservoirs separate from the cell stack. The storage capacity of such systems is limited by the size of the external tanks, making the RFB an ideal technology for grid level energy storage. The vanadium redox flow battery (VRB) is a particularly attractive variant of the RFB, due to its use of a single transition-metal element in both the positive and negative electrolytes. However, the performance of the VRB is affected by the cross-over of electrolytes through the ion-exchange membrane which separates the positive and negative electrolytes. Cross-over causes degradation of energy storage efficiency and long term capacity loss. Previous studies of ion cross-over have focused primarily on the measurement of ion diffusion across ion exchange membranes in the absence of electrical current. In this work a novel VRB cell is described in which ion cross-over can be measured directly in the presence and absence of electrical current. Measurements are made of cross-over using this cell with three different types of ion exchange membrane in both charge and discharge modes. The results reported in this work show that the rate of ion cross-over can be greatly enhanced or suppressed depending upon the magnitude of the current flow and its direction relative to the ion concentration gradient. / text
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Sustainable Recycling of Electrolytes for Vanadium Redox Flow Batteries : Method development and Review (Bachelor Thesis) / Hållbar återvinning av elektrolyter för Vanadium Redox Flödesbatterier. : Utveckling av en miljövänlig återvinningsmetod samt översikt av andrarelaterade vetenskapliga forskningar.Doulati, Reza January 2023 (has links)
Vanadium Redox Flow Batteries VRFBs are promising energy storage systems with highly recyclable electrolytes. The recycling of these systems usually involves ammonium-based salt precipitation steps, which produce toxicgases and contaminated water as waste. In this study, a novel method has been developed to recycle vanadiumdirectly from VRFB electrolyte solutions. The purity and characteristics of the final product have been analyzedusing X-ray Diffraction and Cyclic Voltammetry analysis. The method developed in this study has a precipitationrecovery of 98%. However, further investigation is needed to improve product purity and method optimization. / Sammanfattning på svenska: Vanadium Redox Flödes Batterier VRFB är lovande energilagringssystem medmycket återvinningsbara elektrolyter. Återvinningen av dessa system innefattar vanligtvis ammoniumbaseradesaltutfällningssteg som producerar giftiga gaser och förorenat vatten som avfall. I denna studie har en ny metodutvecklats för återvinning av vanadium direkt från VRFB elektrolytlösningar. Renheten och egenskaperna hosslutprodukten har analyserats med X-ray diffraktion och cyclic voltammetry analys. Metoden som utvecklats idenna studie har återvinnings kapacitet på 98 %. Ytterligare utredning behövs inom förbättring av produktensrenhet samt metods optimering.
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