Model-based Design Vanadium Redox Flow Batteries

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Model-based Design Vanadium Redox Flow Batteries ( model-based-design-vanadium-redox-flow-batteries )

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Appendix D  Bibliography [84]Knudsen, E., Albertus, P., Cho, K. T., Weber, A. Z., and Kojic, A. 2015. Flow simulation and analysis of high-power flow batteries. Journal of Power Sources 299, 617–628. [85]Escudero-Gonzalez, J. and Lopez-Jimenez, P. A. 2014. Methodology to optimize fluid-dynamic design in a redox cell. Journal of Power Sources 251, 243–253. [86]Prokopius, P. R. 1976. Model for calculating electrolytic shunt path losses in large electrochemical energy conversion systems. https://ntrs.nasa.gov/archive/nasa/ casi.ntrs.nasa.gov/19760014614.pdf. Accessed 6 December 2016. [87]Ye, Q., Hu, J., Cheng, P., and Ma, Z. 2015. Design trade-offs among shunt current, pumping loss and compactness in the piping system of a multi-stack vanadium flow battery. Journal of Power Sources 296, 352–364. [88]Moro, F., Trovò, A., Bortolin, S., Del Col, D., and Guarnieri, M. 2017. An alternative low-loss stack topology for vanadium redox flow battery. Comparative assessment. Journal of Power Sources 340, 229–241. [89]Yin, C., Guo, S., Fang, H., Liu, J., Li, Y., and Tang, H. 2015. Numerical and experimental studies of stack shunt current for vanadium redox flow battery. Applied Energy 151, 237–248. [90]SGL-Group. Speciality graphites for energy storage. http://www.sglgroup.com/ cms/_common/downloads/products/product-groups/gs/brochures/ Specialty_Graphites_for_Energy_Storage_e.pdf. Accessed 2 February 2017. [91]Schunk-Group. FU4369 Data sheet. http://stabiclim.com/sixcms/media.php/1722/ FU_4369_en.pdf. Accessed 2 February 2017. [92]SMA Solar Technology AG. Sunny Island 6.0H / 8.0H for off-grid and on-grid applications. [93]TRUMPF Hüttinger. Product website TruConvert. https://www.trumpf.com/ en_GB/products/powerelectronics/energy-storage-system/truconvert/?LS=1. Accessed 6 June 2017. [94]Hagedorn, N. H., Hoberecht, M. A., and Thaller, L. H. 1982. NASA Redox Cell Stack Shunt Current, Pumping Power, and Cell Performance Tradeoffs. NASA. [95]Blanc, C. and Rufer, A. Optimization of the operating point of a vanadium redox flow battery. 2009 IEEE Energy Conversion Congress and Exposition. [96]Xiong, B., Zhao, J., Tseng, K. J., Skyllas-Kazacos, M., Lim, T. M., and Zhang, Y. 2013. Thermal hydraulic behavior and efficiency analysis of an all-vanadium redox flow battery. Journal of Power Sources 242, 314–324. 163

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