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Autori principali: Zonta, Elia, Buha, Ivana Jovanovic, Spinola, Michele, Weißinger, Christoph, Bungartz, Hans-Joachim, Jossen, Andreas
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2502.17275
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author Zonta, Elia
Buha, Ivana Jovanovic
Spinola, Michele
Weißinger, Christoph
Bungartz, Hans-Joachim
Jossen, Andreas
author_facet Zonta, Elia
Buha, Ivana Jovanovic
Spinola, Michele
Weißinger, Christoph
Bungartz, Hans-Joachim
Jossen, Andreas
contents The Doyle-Fuller-Newman model is arguably the most ubiquitous electrochemical model in lithium-ion battery research. Since it is a highly nonlinear model, its input-output relations are still poorly understood. Researchers therefore often employ sensitivity analyses to elucidate relative parametric importance for certain use cases. However, some methods are ill-suited for the complexity of the model and appropriate methods often face the downside of only being applicable to scalar quantities of interest. We implement a novel framework for global sensitivity analysis of time-dependent model outputs and apply it to a drive cycle simulation. We conduct a full and a subgroup sensitivity analysis to resolve lowly sensitive parameters and explore the model error when unimportant parameters are set to arbitrary values. Our findings suggest that the method identifies insensitive parameters whose variations cause only small deviations in the voltage response of the model. By providing the methodology, we hope research questions related to parametric sensitivity for time-dependent quantities of interest, such as voltage responses, can be addressed more easily and adequately in simulative battery research and beyond.
format Preprint
id arxiv_https___arxiv_org_abs_2502_17275
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Time-dependent global sensitivity analysis of the Doyle-Fuller-Newman model
Zonta, Elia
Buha, Ivana Jovanovic
Spinola, Michele
Weißinger, Christoph
Bungartz, Hans-Joachim
Jossen, Andreas
Materials Science
Computation
The Doyle-Fuller-Newman model is arguably the most ubiquitous electrochemical model in lithium-ion battery research. Since it is a highly nonlinear model, its input-output relations are still poorly understood. Researchers therefore often employ sensitivity analyses to elucidate relative parametric importance for certain use cases. However, some methods are ill-suited for the complexity of the model and appropriate methods often face the downside of only being applicable to scalar quantities of interest. We implement a novel framework for global sensitivity analysis of time-dependent model outputs and apply it to a drive cycle simulation. We conduct a full and a subgroup sensitivity analysis to resolve lowly sensitive parameters and explore the model error when unimportant parameters are set to arbitrary values. Our findings suggest that the method identifies insensitive parameters whose variations cause only small deviations in the voltage response of the model. By providing the methodology, we hope research questions related to parametric sensitivity for time-dependent quantities of interest, such as voltage responses, can be addressed more easily and adequately in simulative battery research and beyond.
title Time-dependent global sensitivity analysis of the Doyle-Fuller-Newman model
topic Materials Science
Computation
url https://arxiv.org/abs/2502.17275