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Physics based modelling of porous lithium ion battery electrodes—A review

Physics based modelling of porous lithium ion battery electrodes—A review
Physics based modelling of porous lithium ion battery electrodes—A review
Mathematical models have been used extensively to simulate physical and electrochemical processes occurring inside lithium-ion batteries. Physical based models, coupled with experimental validation, have revealed greater scientific understanding of the processes inside the battery. A region of specific interest is the porous electrode. However, the heterogeneous geometry of the porous structure presents practical difficulties in developing suitable models. The present paper is a review of the studies on the physical modelling of lithium ion porous electrodes. Here we review common methods to model the (de)intercalation behaviour of porous Li-ion battery electrodes. Advantages and drawbacks are contrasted to highlight some challenges that suggest directions and priorities for further research in the field.
2352-4847
Le Houx, James, Peter
c3130024-47fa-44ee-b10e-a4d76877fb9a
Kramer, Denis
1faae37a-fab7-4edd-99ee-ae4c30d3cde4
Le Houx, James, Peter
c3130024-47fa-44ee-b10e-a4d76877fb9a
Kramer, Denis
1faae37a-fab7-4edd-99ee-ae4c30d3cde4

Le Houx, James, Peter and Kramer, Denis (2020) Physics based modelling of porous lithium ion battery electrodes—A review. Energy Reports, 6 (5). (doi:10.1016/j.egyr.2020.02.021).

Record type: Article

Abstract

Mathematical models have been used extensively to simulate physical and electrochemical processes occurring inside lithium-ion batteries. Physical based models, coupled with experimental validation, have revealed greater scientific understanding of the processes inside the battery. A region of specific interest is the porous electrode. However, the heterogeneous geometry of the porous structure presents practical difficulties in developing suitable models. The present paper is a review of the studies on the physical modelling of lithium ion porous electrodes. Here we review common methods to model the (de)intercalation behaviour of porous Li-ion battery electrodes. Advantages and drawbacks are contrasted to highlight some challenges that suggest directions and priorities for further research in the field.

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Published date: 21 May 2020

Identifiers

Local EPrints ID: 449600
URI: http://eprints.soton.ac.uk/id/eprint/449600
DOI: doi:10.1016/j.egyr.2020.02.021
ISSN: 2352-4847
PURE UUID: a9d47580-cdcc-46df-8e7d-f439a566acc8

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Date deposited: 08 Jun 2021 16:32
Last modified: 16 Mar 2024 12:34

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Contributors

Author: James, Peter Le Houx
Author: Denis Kramer

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