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.
Control oriented 1D electrochemical model of lithium ion battery
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Nonlinear controllability analysis shows that the condition number of a battery cell's controllability matrix predicts required control effort, with sensitivity analysis indicating uniform parameter impact on conditioning for new and aged cells.
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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 Study on the Controllability of Lithium-Ion Batteries
Nonlinear controllability analysis shows that the condition number of a battery cell's controllability matrix predicts required control effort, with sensitivity analysis indicating uniform parameter impact on conditioning for new and aged cells.