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Optimal-rate error estimates and a twice decoupled solver for a backward Euler finite element scheme of the Doyle-Fuller-Newman model of lithium-ion batteries

Published 24 Nov 2024 in math.NA, cs.NA, physics.chem-ph, and physics.comp-ph | (2411.15722v2)

Abstract: We investigate the convergence of a backward Euler finite element discretization applied to a multi-domain and multi-scale elliptic-parabolic system, derived from the Doyle-Fuller-Newman model for lithium-ion batteries. We establish optimal-order error estimates for the solution in the norms $l2(H1)$ and $l2(L2(Hq_r))$, $q=0,1$. To improve computational efficiency, we propose a novel solver that accelerates the solution process and controls memory usage. Numerical experiments with realistic battery parameters validate the theoretical error rates and demonstrate the significantly superior performance of the proposed solver over existing solvers.

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Authors (2)

  1. Shu Xu 
  2. Liqun Cao 

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