Finite volume discretization of Laplace and gradient operators is modified to account for internal voltage jumps, enabling 3D current distribution simulations in liquid metal batteries, validated analytically and applied to Li||Bi discharge.
Theoretical Analysis of Current Distribution in Porous Electrodes
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A computational framework integrates the Doyle-Fuller-Newman electrochemical model with a 3D distributed equivalent circuit network model to simulate Li-ion battery discharge more accurately than lumped models at low temperatures or high rates.
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Modeling discontinuous potential distributions using the finite volume method, and application to liquid metal batteries
Finite volume discretization of Laplace and gradient operators is modified to account for internal voltage jumps, enabling 3D current distribution simulations in liquid metal batteries, validated analytically and applied to Li||Bi discharge.
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A Computational Framework Integrating Physics-based Model and Equivalent Circuit Network Model to Simulate Li-ion Batteries
A computational framework integrates the Doyle-Fuller-Newman electrochemical model with a 3D distributed equivalent circuit network model to simulate Li-ion battery discharge more accurately than lumped models at low temperatures or high rates.