Hard limitations of polynomial approximations for reduced-order models of lithium-ion cells

“…In contrast, the actual electrode model does not exhibit these characteristics. However, Second-order polynomials provide smaller bandwidth and less precision in transients as compared to higher-order polynomial approximations [26]. Another feature of polyno-mials is time variance.The coefficients of polynomials are calculated at every iteration.…”

Simplification of full homogenized macro-scale model for lithium-ion batteries

“…In contrast, the actual electrode model does not exhibit these characteristics. However, Second-order polynomials provide smaller bandwidth and less precision in transients as compared to higher-order polynomial approximations [26]. Another feature of polyno-mials is time variance.The coefficients of polynomials are calculated at every iteration.…”

Simplification of full homogenized macro-scale model for lithium-ion batteries

“…As a consequence of the long computational time, there has been a great effort on simplifying the P2D model into single particle models [16,17] or reduced-order P2D models with polynomial approximations [18]. These simplifications increase the calculation efficiency but also limits the conditions where the models are valid [19]. Furthermore, the physics-based models with complex mathematical equations remains challenging to use and interpret for researchers without a solid mathematics or physics background.…”

Bridging physics-based and equivalent circuit models for lithium-ion batteries

“…However, PA method is accurate for describing the solution profiles only if steady or slow-varying currents are applied to the cell [31,42,43], which undermines the validity conditions of the SPM [20]. Besides, structural limitations of higher order PADMs, such as model instability or phase nonminimality, were recently demonstrated [44].…”

Residue grouping order reduction method in solid-phase lithium-ion battery models