Internal Architecture and Electrochemical Mechanisms of Redox Flow Batteries

Zhe Wang

Simen Owen Academic Proceedings Series, 2026, vol. 3, 329-336

Abstract: Redox Flow Batteries (RFBs) have emerged as a transformative solution for large-scale, long-duration energy storage, addressing the safety and scalability limitations of conventional lithium-ion systems. This paper provides a comprehensive analysis of the internal architecture and electrochemical mechanisms that define RFB performance. By decoupling power and energy capacity through external electrolyte circulation, RFBs offer unique flexibility and an exceptional cycle life exceeding 15,000 cycles. We detail the critical role of the cell stack components, including bipolar plates, carbon-based electrodes, and optimized flow field designs, in minimizing concentration polarization and enhancing mass transport. A significant portion of the study focuses on the separator as the primary gatekeeper of efficiency. We evaluate the technical pathways of membrane materials, ranging from industry-standard perfluorinated sulfonic acid (PFSA) membranes to emerging porous separators and Polymers of Intrinsic Microporosity (PIMs). These materials are assessed based on their ion exchange capacity, area resistance, and ability to mitigate active species crossover. ly, the paper reviews the industrial landscape, highlighting large-scale demonstration projects and the ongoing transition toward low-cost, non-fluorinated materials. By integrating material innovation with system-level optimization, RFBs are poised to serve as the backbone of resilient, stable, and sustainable energy grids.

Keywords: Redox Flow Batteries (RFBs); Long-Duration Energy Storage; Ion Exchange Membranes; Reaction Mechanisms; Vanadium Redox Flow Battery (VRFB) (search for similar items in EconPapers)
Date: 2026
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Persistent link: https://EconPapers.repec.org/RePEc:axf:soapsa:v:3:y:2026:i::p:329-336

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