Derivation and numerical validation of a homogenized isothermal Li-ion battery model
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Publication:524384
DOI10.1007/s10665-015-9842-6zbMath1360.78012OpenAlexW2297418956MaRDI QIDQ524384
Vasilena Taralova, O. P. Iliev, Yalchin R. Efendiev
Publication date: 2 May 2017
Published in: Journal of Engineering Mathematics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s10665-015-9842-6
numerical resultshomogenization theoryLi-ion batteriescoupled macro-microscale modeleffective transport coefficients
Related Items (6)
A pseudostress-based mixed-primal finite element method for stress-assisted diffusion problems in Banach spaces ⋮ Formulation and analysis of fully-mixed methods for stress-assisted diffusion problems ⋮ Homogenization of the generalized Poisson–Nernst–Planck problem in a two-phase medium: correctors and estimates ⋮ Derivation and numerical validation of a homogenized isothermal Li-ion battery model ⋮ Multiscale model reduction for pore-scale simulation of Li-ion batteries using GMsFEM ⋮ A posteriori error analysis of mixed finite element methods for stress-assisted diffusion problems
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- Derivation and numerical validation of a homogenized isothermal Li-ion battery model
- Multiscale modelling and analysis of lithium-ion battery charge and discharge
- Non-homogeneous media and vibration theory
- Modeling of Species and Charge Transport in Li–Ion Batteries Based on Non-equilibrium Thermodynamics
- Derivation of the Double Porosity Model of Single Phase Flow via Homogenization Theory
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