Mechanistic modelling of cyclic voltage-capacity response for lithium-ion batteries

Marko Nagode (Author), Aleš Gosar (Author), Caoimhe A. Sweeney (Author), Joris Jaguemont (Author), Joeri Van Mierlo (Author), Domen Šeruga (Author)

Abstract

One of the challenging tasks related to lithium-ion batteries (LIBs) remains a comprehensive approach for battery behaviour modelling. An approach is presented that enables modelling the voltage-capacity response of LIBs that are subjected to variable temperature and current load histories. A detailed presentation of the developed macro-scale phenomenological model embedding the mechanistic properties of the Prandtl type hysteresis operator and the concept of the force-voltage analogy is made. The necessary input data preparation for the model calibration is also presented. Accuracy of the model is confirmed with experimental observations for both nested current load history at two different temperatures and for arbitrary current load history. The same measured data is used to calibrate and to simulate response of the first order Thevenin equivalent circuit topology in order to amply compare the obtained results.

Keywords

lithium-ion batteries;continuum modelling;battery model;thermo-mechanical;prandtl operator;cyclic loading;

Data

Language:	English
Year of publishing:	2019
Typology:	1.01 - Original Scientific Article
Organization:	UL FS - Faculty of Mechanical Engineering
UDC:	519.876.5:620.178.3:621.352(045)
COBISS:	16771099
ISSN:	0360-5442
Views:	645
Downloads:	199
Average score:	0 (0 votes)
Metadata:

Other data

Secondary language:	Slovenian
Secondary keywords:	termomehanično utrujanje;modeliranje;baterije;
Type (COBISS):	Article
Embargo end date (OpenAIRE):	2021-11-01
Pages:	str. 1-12
Issue:	ǂVol. ǂ186
Chronology:	Nov. 2019
DOI:	10.1016/j.energy.2019.07.121
ID:	11214226