41 |
Vanadium redox flow battery with slotted porous electrodes and automatic rebalancing demonstrated on a 1 kW system level Bhattarai A, Wai N, Schweiss R, Whitehead A, Scherer GG, Ghimire PC, Lim TM, Hng HH Applied Energy, 236, 437, 2019 |
42 |
Battery assembly optimization: Tailoring the electrode compression ratio based on the polarization analysis in vanadium flow batteries Yue M, Lv ZQ, Zheng Q, Li XF, Zhang HM Applied Energy, 235, 495, 2019 |
43 |
Anion exchange membranes for aqueous acid-based redox flow batteries: Current status and challenges Zeng L, Zhao TS, Wei L, Jiang HR, Wu MC Applied Energy, 233, 622, 2019 |
44 |
A hierarchical interdigitated flow field design for scale-up of high-performance redox flow batteries Zeng YK, Li FH, Lu F, Zhou XL, Yuan YP, Cao XL, Xiang B Applied Energy, 238, 435, 2019 |
45 |
Semi-empirical modeling of the power balance of flow lithium/oxygen batteries Poli F, Ghadikolaei LK, Soavi F Applied Energy, 248, 383, 2019 |
46 |
Numerical modelling and in-depth analysis of multi-stack vanadium flow battery module incorporating transport delay Chen H, Li XR, Gao H, Liu JG, Yan CW, Tang A Applied Energy, 247, 13, 2019 |
47 |
Standby thermal model of a vanadium redox flow battery stack with crossover and shunt-current effects Trovo A, Marini G, Sutto A, Motto P, Giomo M, Moro F, Guarnieri M Applied Energy, 240, 893, 2019 |
48 |
Structural modification of vanadium redox flow battery with high electrochemical corrosion resistance Duan ZN, Qu ZG, Wang Q, Wang JJ Applied Energy, 250, 1632, 2019 |
49 |
Low grade heat recovery for power generation through electrochemical route: Vanadium Redox Flow Battery, a case study Eapen DE, Choudhury SR, Rengaswamy R Applied Surface Science, 474, 262, 2019 |
50 |
Electrospun nitrogen-doped carbon nanofiber as negative electrode for vanadium redox flow battery He ZX, Li MM, Li YH, Wang L, Zhu J, Meng W, Li CC, Zhou HZ, Dai L Applied Surface Science, 469, 423, 2019 |