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W2012011383 startingPage "254" @default.
W2012011383 abstract "Vanadium flow battery (VFB) is a promising candidate for large scale energy storage applications. Some critical challenges of VFB technology, especially for the issues unavailable via the experimental research, have motivated the use of VFB modeling, which can perform more efficient battery optimization than the extensive laboratory testing. Thereby, VFB modeling is quite necessary for the battery research. Based on the research scalability, the modeling approach in this review can be roughly grouped into three categories: macro approach, micro approach, and molecular/atomic approach. The modeling applications for VFB prediction can be classified into four levels: market, stack and system, cell, and material, presenting a decreasing scalability. The modeling approach and the modeling application along with their effectiveness and limitations in VFBs are discussed. A modeling perspective is also provided, highlighting the key role of the models at the cell and material level in battery research, and outlining the future direction in battery modeling for the VFB commercialization." @default.
W2012011383 created "2016-06-24" @default.
W2012011383 creator A5013794939 @default.
W2012011383 creator A5023234186 @default.
W2012011383 creator A5032627197 @default.
W2012011383 creator A5035612207 @default.
W2012011383 creator A5079956655 @default.
W2012011383 creator A5084002159 @default.
W2012011383 date "2014-11-01" @default.
W2012011383 modified "2023-09-27" @default.
W2012011383 title "Development and perspective in vanadium flow battery modeling" @default.
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W2012011383 doi "https://doi.org/10.1016/j.apenergy.2014.06.077" @default.
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