DGIST Scholar: Modeling and simulation of 2D lithium-ion solid state battery

Citation: International Journal of Energy Research, v.39, no.11, pp.1505 - 1518

Author Keywords: Solid state battery (SSB) ; 2D simulation ; time-dependent simulation

Keywords: Simulation Approach ; Solid Electrolytes ; Solid State Batteries ; Solid State Battery (SSB) ; Solid State Devices ; Electrochemical Reactions ; Heat Flux ; Heat Transfer ; HYBRID-ELECTRIC VEHICLES ; Ions ; Lithium ; Lithium-Ion Batteries ; Lithium Alloys ; MANAGemENT ; Model and Simulation ; NEGATIVE ELECTRODES ; OPERATING-CONDITIONS ; OVERCHARGE REACTION ; Positive Electrodes ; POWER ; Secondary Batteries ; TemPERATURE ; Time-Dependent Simulation ; Time Dependent Simulation ; 2D Simulation ; 2D Simulations ; CATHODE ; CELL ; Conductive Materials ; Effects of Materials ; Electric Batteries ; Electric Discharges

Abstract: The goal of the work presented here was to develop a simulation approach for studying the effects of materials and geometry on the performance of Li-ion Solid State Batteries (SSB). Simulation provides the opportunity to explore, with ease, different material properties and cell geometries to optimize a Li-ion SSB's performance. Simulations shown in this paper are time-dependent and consider electrochemical reaction, heat transfer, the diffusion of Li-ions and electrons in the electrolyte, and solid Li diffusion in the positive electrode. A 2D model was simulated and the results shown. The simulations were able to show discharge curves, heat flux, the concentration of Li-ions, electrons, and solid Li at any time in the discharge cycle. © 2015 John Wiley & Sons, Ltd.

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