Nonlinear State-Variable Method for Solving Physics-Based Li-Ion Cell Model with High-Frequency Inputs

Guo, Meng, Xinfang Jin, and Ralph E. White. 2017. “Nonlinear State-Variable Method for Solving Physics-Based Li-Ion Cell Model With High-Frequency Inputs”. Journal of The Electrochemical Society 164 (11): E3001—E3015.

Abstract

A nonlinear state-variable method is presented and used to solve the pseudo-2D (P2D) Li-ion cell model under high-frequency input current and temperature signals. The physics-based governing equations are formulated into a nonlinear state variable method (NSVM), in which the mass transfer variables are evaluated using a 1st order exponential integrator approach at each discrete time point and the electrochemical kinetics (Butler-Volmer) equations are solved by either an iterative or an explicit method. This procedure provides an accurate, computationally efficient method to develop physics-based simulations of the performance of a dual-foil Li-ion cell during practical drive cycles. (C) The Author(s) 2017. Published by ECS. All rights reserved.
Last updated on 09/07/2023