Performance benchmarks for open source porous electrode theory models

Surya Mitra Ayalasomayajula; Daniel Cogswell; Debbie Zhuang; R. Edwin García

doi:10.1016/j.heliyon.2024.e27830

Performance benchmarks for open source porous electrode theory models

Surya Mitra Ayalasomayajula, Daniel Cogswell, Debbie Zhuang, R. Edwin García

Multiscale Materials

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

The electrochemical response characteristics of existing and emerging porous electrode theory (PET) models was benchmarked to establish a common basis to assess their physical reaches, limitations, and accuracy. Three open source PET models: dualfoil, MPET, and LIONSIMBA were compared to simulate the discharge of a LiMn₂O₄-graphite cell against experimental data. For C-rates below 2C, the simulated discharge voltage curves matched the experimental data within 4% deviation for dualfoil, MPET, and LIONSIMBA, while for C-rates above 3C, dualfoil and MPET show smaller deviations, within 5%, against experiments. The electrochemical profiles of all three codes exhibit significant qualitative differences, despite showing the same macroscopic voltage response, leading the user to different conclusions regarding the battery performance and possible degradation mechanisms of the analyzed system.

Original language	English
Article number	e27830
Journal	Heliyon
Volume	10
Issue number	7
DOIs	https://doi.org/10.1016/j.heliyon.2024.e27830
State	Published - Apr 15 2024

Funding

The authors greatly acknowledge the support of Toyota Research Institute (TRI).

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10.1016/j.heliyon.2024.e27830

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title = "Performance benchmarks for open source porous electrode theory models",

abstract = "The electrochemical response characteristics of existing and emerging porous electrode theory (PET) models was benchmarked to establish a common basis to assess their physical reaches, limitations, and accuracy. Three open source PET models: dualfoil, MPET, and LIONSIMBA were compared to simulate the discharge of a LiMn2O4-graphite cell against experimental data. For C-rates below 2C, the simulated discharge voltage curves matched the experimental data within 4\% deviation for dualfoil, MPET, and LIONSIMBA, while for C-rates above 3C, dualfoil and MPET show smaller deviations, within 5\%, against experiments. The electrochemical profiles of all three codes exhibit significant qualitative differences, despite showing the same macroscopic voltage response, leading the user to different conclusions regarding the battery performance and possible degradation mechanisms of the analyzed system.",

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AU - Ayalasomayajula, Surya Mitra

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AU - García, R. Edwin

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Performance benchmarks for open source porous electrode theory models

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