NEOLAB: A Scilab tool to simulate the Negative Electrode of Lead-Acid Batteries

Mikaël Cugnet; Florian Gallois; Angel Kirchev; Denys Dutykh

doi:10.1016/j.softx.2023.101394

NEOLAB: A Scilab tool to simulate the Negative Electrode of Lead-Acid Batteries

Mikaël Cugnet
, Florian Gallois
, Angel Kirchev
, Denys Dutykh

Mathematics

UJF-Grenoble 1/CNRS-INSU

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

1 Scopus citations

Abstract

Responding to the need of a growing community of students and researchers who want to get involved in the field of electrochemical storage systems, NEOLAB offers a new tool dedicated to a modeling domain where almost no open-source solutions exist. Physics-based models of batteries require extensive knowledge in thermodynamics, electro-chemistry, mathematics, material and computer sciences. Based on the idea that a minimum working example is the best way to learn gradually how to model a battery, NEOLAB provides a solution to simulate the behavior of the negative electrode of lead-acid batteries and a framework to investigate other primary and secondary technologies.

Original language	British English
Article number	101394
Journal	SoftwareX
Volume	22
DOIs	https://doi.org/10.1016/j.softx.2023.101394
State	Published - May 2023

Keywords

Electrode
Lead-acid battery
Mathematical model
Nondimensionalization
Scilab

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10.1016/j.softx.2023.101394

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title = "NEOLAB: A Scilab tool to simulate the Negative Electrode of Lead-Acid Batteries",

abstract = "Responding to the need of a growing community of students and researchers who want to get involved in the field of electrochemical storage systems, NEOLAB offers a new tool dedicated to a modeling domain where almost no open-source solutions exist. Physics-based models of batteries require extensive knowledge in thermodynamics, electro-chemistry, mathematics, material and computer sciences. Based on the idea that a minimum working example is the best way to learn gradually how to model a battery, NEOLAB provides a solution to simulate the behavior of the negative electrode of lead-acid batteries and a framework to investigate other primary and secondary technologies.",

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year = "2023",

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AU - Dutykh, Denys

PY - 2023/5

Y1 - 2023/5

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AB - Responding to the need of a growing community of students and researchers who want to get involved in the field of electrochemical storage systems, NEOLAB offers a new tool dedicated to a modeling domain where almost no open-source solutions exist. Physics-based models of batteries require extensive knowledge in thermodynamics, electro-chemistry, mathematics, material and computer sciences. Based on the idea that a minimum working example is the best way to learn gradually how to model a battery, NEOLAB provides a solution to simulate the behavior of the negative electrode of lead-acid batteries and a framework to investigate other primary and secondary technologies.

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KW - Mathematical model

KW - Nondimensionalization

KW - Scilab

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NEOLAB: A Scilab tool to simulate the Negative Electrode of Lead-Acid Batteries

Abstract

Keywords

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FSU-2023-014 [D. Dutykh] - Nonlinear waves in geophysics and biomechanics

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NEOLAB: A Scilab tool to simulate the Negative Electrode of Lead-Acid Batteries

Abstract

Keywords

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Other files and links

Fingerprint

Projects

FSU-2023-014 [D. Dutykh] - Nonlinear waves in geophysics and biomechanics

Cite this