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Li-ion_Thermal_Runaway​_Models

version 1.0 (28.1 KB) by Jason Ostanek
Simulink model of an oven test for an LCO-g cell using 0D lumped capacitance approximation.

3 Downloads

Updated 17 Sep 2020

GitHub view license on GitHub

Simulink model of an oven test for an LCO-g cell using 0D lumped capacitance approximation.

Reaction kinetics obtained from:

Richard, M. N., & Dahn, J. R. (1999). Accelerating rate calorimetry study on the thermal stability of lithium intercalated graphite in electrolyte II. Modeling the results and predicting differential scanning calorimeter curves. Journal of The Electrochemical Society, 146(6), 2078-2084. doi:Doi 10.1149/1.1391894

and

MacNeil, D. D., Christensen, L., Landucci, J., Paulsen, J. M., & Dahn, J. R. (2000). An Autocatalytic Mechanism for the Reaction of Li[sub x]CoO[sub 2] in Electrolyte at Elevated Temperature. Journal of The Electrochemical Society, 147(3), 970. doi:10.1149/1.1393299

Cite As

Jason Ostanek (2020). Li-ion_Thermal_Runaway_Models (https://github.com/jkostanek/Li-ion_Thermal_Runaway_Models/releases/tag/v1.0), GitHub. Retrieved .

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MATLAB Release Compatibility
Created with R2020b
Compatible with any release
Platform Compatibility
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