LIONSIMBA: A Matlab Framework Based on a Finite Volume Model Suitable for Li-Ion Battery Design, Simulation, and Control

Author(s)

Torchio, Marcello; Magni, Lalo; Gopaluni, R. Bhushan; Raimondo, Davide M.; Braatz, Richard D

Abstract

Consumer electronics, wearable and personal health devices, power networks, microgrids, and hybrid electric vehicles (HEVs) are some of the many applications of lithium-ion batteries. Their optimal design and management are important for safe and profitable operations. The use of accurate mathematical models can help in achieving the best performance. This article provides a detailed description of a finite volume method (FVM) for a pseudo-two-dimensional (P2D) Li-ion battery model suitable for the development of model-based advanced battery management systems. The objectives of this work are to provide: (i) a detailed description of the model formulation, (ii) a parametrizable Matlab framework for battery design, simulation, and control of Li-ion cells or battery packs, (iii) a validation of the proposed numerical implementation with respect to the COMSOL MultiPhysics commercial software and the Newman’s DUALFOIL code, and (iv) some demonstrative simulations involving thermal dynamics, a hybrid charge-discharge cycle emulating the throttle of an HEV, a model predictive control of state of charge, and a battery pack simulation

Date issued

2016-04

URI

http://hdl.handle.net/1721.1/109916

Department

Massachusetts Institute of Technology. Department of Chemical Engineering

Journal

Journal of The Electrochemical Society

Publisher

Electrochemical Society

Citation

Torchio, Marcello et al. “LIONSIMBA: A Matlab Framework Based on a Finite Volume Model Suitable for Li-Ion Battery Design, Simulation, and Control.” Journal of The Electrochemical Society 163.7 (2016): A1192–A1205. © 2016 The Electrochemical Society

Version: Final published version

ISSN

0013-4651

1945-7111