锂离子电池SEI多尺度建模研究展望
Multiscale modeling of the SEI of lithium-ion batteries
锂离子电池SEI多尺度建模研究展望 |
| 张慧敏, 王京, 王一博, 郑家新, 邱景义, 曹高萍, 张浩 |
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Multiscale modeling of the SEI of lithium-ion batteries |
| Huimin ZHANG, Jing WANG, Yibo WANG, Jiaxin ZHENG, Jingyi QIU, Gaoping CAO, Hao ZHANG |
| 图3 几种典型的模拟计算模型。(a)独立模型;(b)基于顺序链接的多尺度模型(MSMSL);(c)基于迭代耦合的多尺度模型(MSMIC);(d)基于紧耦合的多尺度模型(MSMTC)。PE是物理方程(基于基础物理理论,定义某一实体物理量关系的数学方程),MR是物质关系(物理方程中某一参数值的物质特定方程)[ |
| Fig. 3 Workflows of (a) stand-alone models; (b) multiscale models based on sequential linking (MSMSL); (c) multiscale models based on iterative coupling (MSMIC); and (d) multiscale models based on tight coupling (MSMTC). “PE” refers to “physical equation” (mathematical equation based on a fundamental physics theory which defines the relations between physics quantities of an entity) and “MR” to material relation (materials specific equation providing a value for a parameter in the physics equation)[ |
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