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Study of redox flow battery systems for residential applications [16] F. Pan and Q. Wang, "Redox Species of Redox Flow Batteries: A Review," (in English), Molecules, vol. 20, no. 11, pp. 20499-20517, Nov 2015. [17] A. Z. Weber, M. M. Mench, J. P. Meyers, P. N. Ross, J. T. Gostick, and Q. H. Liu, "Redox flow batteries: a review," (in English), Journal of Applied Electrochemistry, vol. 41, no. 10, pp. 1137-1164, Oct 2011. [18] K. Ngamsai and A. Arpornwichanop, "Analysis and measurement of the electrolyte imbalance in a vanadium redox flow battery," (in English), Journal of Power Sources, vol. 282, pp. 534-543, May 15 2015. [19] D. Dumancic, "Flow batteries : Status and potential," Independent thesis Advanced level (degree of Master (Two Years)) Student thesis, 2011. [20] C. Blanc and A. Rufer, Understanding the Vanadium Redox Flow Batteries. INTECH Open Access Publisher, 2010. [21] M. Skyllas-Kazacos and C. Menictas, "Redox flow batteries for medium- to large-scale energy storage," in Electricity Transmission, Distribution and Storage Systems, Z. Melhem, Ed.: Woodhead Publishing Limited, 2013, pp. 398-441. [22] G. Kear, A. A. Shah, and F. C. Walsh, "Development of the all-vanadium redox flow battery for energy storage: a review of technological, financial and policy aspects," International Journal of Energy Research, vol. 36, no. 11, pp. 1105-1120, 2012. [23] A. Mendes and L. Andrade, "Energias Renováveis I," in Electrochemistry: Fuel Cells, Electrolysis and Batteries; Photoelectrochemistry: Photovoltaic and Photoelectrochemical Cells, ed. Faculdade de Engenharia da Universidade do Porto, 2016, p. 330. [24] A. Tang, J. Bao, and M. Skyllas-Kazacos, "Dynamic modelling of the effects of ion diffusion and side reactions on the capacity loss for vanadium redox flow battery," Journal of Power Sources, vol. 196, no. 24, pp. 10737-10747, 2011. [25] Z. Wei, J. Zhao, M. Skyllas-Kazacos, and B. Xiong, "Dynamic thermal-hydraulic modeling and stack flow pattern analysis for all-vanadium redox flow battery," Journal of Power Sources, vol. 260, pp. 89-99, 2014. [26] K. W. Knehr and E. C. Kumbur, "Open circuit voltage of vanadium redox flow batteries: Discrepancy between models and experiments," Electrochemistry Communications, vol. 13, no. 4, pp. 342-345, 2011. [27] S. Corcuera and M. Skyllas-Kazacos, "State-of-charge monitoring and electrolyte rebalancing methods for the vanadium redox flow battery," Eur. Chem. Bull, vol. 1, no. 12, pp. 511-519, 2012. [28] R. M. Dell and D. A. J. Rand, Understanding Batteries. Royal Society of Chemistry, 2001, p. 223. [29] G. Tomazic and M. Skyllas-Kazacos, "Redox Flow Batteries," in Electrochemical Energy Storage for Renewable Sources and Grid Balancing, J. Garche, Ed. Amsterdam: Elsevier, 2015, pp. 309-336. [30] D. Reed et al., "Stack Developments in a kW Class All Vanadium Mixed Acid Redox Flow Battery at the Pacific Northwest National Laboratory," (in English), Journal of the Electrochemical Society, vol. 163, no. 1, pp. A5211-A5219, 2016. [31] X. K. Ma, H. M. Zhang, C. X. Sun, Y. Zou, and T. Zhang, "An optimal strategy of electrolyte flow rate for vanadium redox flow battery," (in English), Journal of Power Sources, vol. 203, pp. 153-158, Apr 1 2012. [32] S. Kim et al., "1 kW/1 kWh advanced vanadium redox flow battery utilizing mixed acid electrolytes," (in English), Journal of Power Sources, vol. 237, pp. 300-309, Sep 1 2013. References 42PDF Image | Tubular Vanadium Air Redox‐flow battery
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