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Energies 2021, 14, 5643 35 of 45 References 4-HO-TEMPO AEM AQDS A-ORFB ARFB AO-RFB CE CEM CFD DES DHDMBS EE FE IL LAFB MAFB MAFC MCC MV NA-RFB NQ-S OCP POM RFB ROM SoC VAFC VRFB ZAFC ZAFB ZBFB 4-hydroxy-2,2,6,6-tetramethylpiperidin-1-oxyl Anionic Exchange Membrane Anthraquinone-2,7-disulfonic acid All-organic RFBs Aqueous Redox Flow Batteries Aqueous Organic RFBs Coulombic Efficiency Cation Exchange Membrane Computational Fluid Dynamics Deep Eutectic Solvents 3,6-dihydroxy-2,4-dimethylbenzenesulfonic acid Energy Efficiency Faradaic Efficiency Ionic Liquids Lithium-Air Flow Battery Metal–air Flow Battery Metal–air Fuel Cell Metal Coordination Complexes Methyl Viologen Non-aqueous RFBs 1,2-naphthoquinone-4-sulfonic acid sodium salt Open Circuit Potential Polyoxometalates Redox Flow Batteries Redox active Organic Molecules State of Charge Vanadium-Air Fuel Cell Vanadium Redox Flow Batteries Zinc–air Fuel Cell Zinc–air Flow Battery Zinc–bromine Flow Battery 1. International Renewable Energy Agency (IRENA). Global Energy Transformation: A Roadmap to 2050 (2019 Edition); IRENA: Abu Dhabi, United Arab Emirates, 2019. 2. International Renewable Energy Agency (IRENA). Electricity Storage and Renewables: Costs and Markets to 2030; IRENA: Abu Dhabi, United Arab Emirates, 2017. 3. Sánchez-Díez, E.; Ventosa, E.; Guarnieri, M.; Trovò, A.; Flox, C.; Marcilla, R.; Soavi, F.; Mazur, P.; Aranzabe, E.; Ferret, R. Redox Flow Batteries: Status and Perspective towards Sustainable Stationary Energy Storage. J. Power Sources 2021, 481, 228804. [CrossRef] 4. Zhang, H.; Li, X.; Zhang, J. (Eds.) Redox Flow Batteries: Fundamentals and Applications, 1st ed.; CRC Press: Boca Raton, FL, USA, 2017. 5. Wang, X.; Chai, J.; Jiang, J. “Jimmy” Redox Flow Batteries Based on Insoluble Redox-Active Materials. A Review. Nano Mater. Sci. 2021, 3, 17–24. [CrossRef] 6. Barelli, L.; Bidini, G.; Ottaviano, P.A.; Pelosi, D. Vanadium Redox Flow Batteries Application to Electric Buses Propulsion: Performance Analysis of Hybrid Energy Storage System. J. Energy Storage 2019, 24, 100770. [CrossRef] 7. Gouveia, J.R.; Silva, E.; Mata, T.M.; Mendes, A.; Caetano, N.S.; Martins, A.A. Life Cycle Assessment of a Renewable Energy Generation System with a Vanadium Redox Flow Battery in a NZEB Household. Energy Rep. 2020, 6, 87–94. [CrossRef] 8. Elio, J.; Phelan, P.; Villalobos, R.; Milcarek, R.J. A Review of Energy Storage Technologies for Demand-Side Management in Industrial Facilities. J. Clean. Prod. 2021, 307, 127322. [CrossRef] 9. Ponce de León, C.; Frías-Ferrer, A.; González-García, J.; Szánto, D.A.; Walsh, F.C. Redox Flow Cells for Energy Conversion. J. Power Sources 2006, 160, 716–732. [CrossRef] 10. Weber, A.Z.; Mench, M.M.; Meyers, J.P.; Ross, P.N.; Gostick, J.T.; Liu, Q. Redox Flow Batteries: A Review. J. Appl. Electrochem. 2011, 41, 1137. [CrossRef] 11. Li, X.; Zhang, H.; Mai, Z.; Zhang, H.; Vankelecom, I. Ion Exchange Membranes for Vanadium Redox Flow Battery (VRB) Applications. Energy Environ. Sci. 2011, 4, 1147–1160. [CrossRef] 12. Skyllas-Kazacos, M.; Chakrabarti, M.H.; Hajimolana, S.A.; Mjalli, F.S.; Saleem, M. Progress in Flow Battery Research and Development. J. Electrochem. Soc. 2011, 158, R55. [CrossRef]PDF Image | PNNL Vanadium Redox Flow Battery Stack
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