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Study of redox flow battery systems for residential applications [49] O. G. Martinsen and S. Grimnes, "Electrolytics," in Bioimpedance and Bioelectricity Basics: Elsevier Science, 2011, pp. 28-30. [50] K. W. Knehr and E. C. Kumbur, "Role of convection and related effects on species crossover and capacity loss in vanadium redox flow batteries," (in English), Electrochemistry Communications, vol. 23, pp. 76-79, Sep 2012. [51] R. M. Darling, A. Z. Weber, M. C. Tucker, and M. L. Perry, "The Influence of Electric Field on Crossover in Redox-Flow Batteries," (in English), Journal of the Electrochemical Society, vol. 163, no. 1, pp. A5014-A5022, 2016. [52] E. Agar, K. W. Knehr, D. Chen, M. A. Hickner, and E. C. Kumbur, "Species transport mechanisms governing capacity loss in vanadium flow batteries: Comparing Nafion ® and sulfonated Radel membranes," (in English), Electrochimica Acta, vol. 98, pp. 66-74, May 30 2013. [53] E. Agar, A. Benjamin, C. R. Dennison, D. Chen, M. A. Hickner, and E. C. Kumbur, "Reducing capacity fade in vanadium redox flow batteries by altering charging and discharging currents," (in English), Journal of Power Sources, vol. 246, pp. 767-774, Jan 15 2014. [54] R. P. Brooker, C. J. Bell, L. J. Bonville, H. R. Kunz, and J. M. Fenton, "Determining Vanadium Concentrations Using the UV-Vis Response Method," (in English), Journal of the Electrochemical Society, vol. 162, no. 4, pp. A608-A613, 2015. [55] L. Wei, T. S. Zhao, Q. Xu, X. L. Zhou, and Z. H. Zhang, "In-situ investigation of hydrogen evolution behavior in vanadium redox flow batteries," (in English), Applied Energy, vol. 190, pp. 1112-1118, Mar 15 2017. [56] K. Ngamsai and A. Arpornwichanop, "Study on mechanism and kinetic of air oxidation of V(II) in electrolyte reservoir of a vanadium redox flow battery," (in English), International Conference on Applied Energy, Icae2014, vol. 61, pp. 1642-1645, 2014. [57] K. Ngamsai and A. Arpornwichanop, "Investigating the air oxidation of V(II) ions in a vanadium redox flow battery," (in English), Journal of Power Sources, vol. 295, pp. 292- 298, Nov 1 2015. [58] F. T. Wandschneider, S. Rohm, P. Fischer, K. Pinkwart, J. Tubke, and H. Nirschl, "A multi-stack simulation of shunt currents in vanadium redox flow batteries," (in English), Journal of Power Sources, vol. 261, pp. 64-74, Sep 1 2014. [59] Z. J. Tang, D. S. Aaron, A. B. Papandrew, and T. A. Zawodzinski, "Monitoring the State of Charge of Operating Vanadium Redox Flow Batteries," (in English), Large Scale Energy Storage for Smart Grid Applications, vol. 41, no. 23, pp. 1-9, 2012. [60] Y.-S. Chou, N.-Y. Hsu, K.-T. Jeng, K.-H. Chen, and S.-C. Yen, "A novel ultrasonic velocity sensing approach to monitoring state of charge of vanadium redox flow battery," Applied Energy, vol. 182, no. Complete, pp. 253-259, 2016. [61] D. N. Buckley, X. Gao, R. P. Lynch, N. Quill, and M. J. Leahy, "Towards Optical Monitoring of Vanadium Redox Flow Batteries (VRFBs): An Investigation of the Underlying Spectroscopy," (in English), Journal of the Electrochemical Society, vol. 161, no. 4, pp. A524-A534, 2014. [62] M. Skyllas-Kazacos and M. Kazacos, "State of charge monitoring methods for vanadium redox flow battery control," (in English), Journal of Power Sources, vol. 196, no. 20, pp. 8822-8827, Oct 15 2011. [63] M. Gencten, H. Gursu, and Y. Sahin, "Electrochemical investigation of the effects of V(V) and sulfuric acid concentrations on positive electrolyte for vanadium redox flow battery," (in English), International Journal of Hydrogen Energy, vol. 41, no. 23, pp. 9868-9875, Jun 22 2016. References 44PDF Image | Tubular Vanadium Air Redox‐flow battery
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