期刊
JOURNAL OF POWER SOURCES
卷 423, 期 -, 页码 263-270出版社
ELSEVIER
DOI: 10.1016/j.jpowsour.2019.03.004
关键词
Single particle model; Lithium ion batteries; Lithium diffusion; Inertia
资金
- Saft
- European Regional Development Fund
- Institut Universitaire de France
The description of the transport mechanisms in operating Li ion battery cells is of key importance for a correct evaluation of their performance and for their optimization. In this work, we revise the Fickian approach for the description of the lithium transport in intercalation-type active materials. We adopt the Maxwell-Cattaneo-Vemotte (MCV) theory to capture the impact of lithium transport inertia on the electrochemical response of graphitic materials, taken here as an application example. We formalize this theory by means of an analytical mathematical expression which allows extracting the values of the lithium diffusion coefficient D-MCV and the inertia characteristic time tau from potentiostatic intermittent titration technique (PITT) experiments. The implications of adopting the MCV theory in single particle models to calculate transient current response during the graphite lithiation are discussed (i) on the basis of the fitting of the calculations with in house PITT results and, (ii) by comparing the estimated diffusion coefficients with the ones resulting from the fitting using the classical Fickian approach.
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