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Shakoor, R.A., Seo, D.-H., Kim, H., Park, Y.-U., Kim, J., Kim, S.-W., Gwon, H., Lee, S. and Kang, K. (2012) A Combined First Principles and Experimental Study on Na3V2(PO4)2F3 for Rechargeable Na Batteries. Journal of Materials Chemistry, 22, 20535-20541.
https://doi.org/10.1039/c2jm33862a
下面的文章已经引用:
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标题:
A Hybrid Backward Euler Control Volume Method to Solve the Concentration-Dependent Solid-State Diffusion Problem in Battery Modeling
作者:
Kudakwashe Chayambuka, Grietus Mulder, Dmitri L. Danilov, Peter H. L. Notten
关键词:
Solid-State Diffusion, Implicit Methods, Backward Euler
期刊名称:
Journal of Applied Mathematics and Physics,
Vol.8 No.6,
June
5,
2020
摘要: Several efficient analytical methods have been developed to solve the solid-state diffusion problem, for constant diffusion coefficient problems. However, these methods cannot be applied for concentration-dependent diffusion coefficient problems and numerical methods are used instead. Herein, grid-based numerical methods derived from the control volume discretization are presented to resolve the characteristic nonlinear system of partial differential equations. A novel hybrid backward Euler control volume (HBECV) method is presented which requires only one iteration to reach an implicit solution. The HBECV results are shown to be stable and accurate for a moderate number of grid points. The computational speed and accuracy of the HBECV, justify its use in battery simulations, in which the solid-state diffusion coefficient is a strong function of the concentration.