A Single Particle Thermal Model for Lithium Ion Batteries

R. Painter[1], S. Berryhill[1], L. Sharpe[2], S. K. Hargrove[2]
[1]Department of Civil Engineering, Tennessee State University, Nashville, TN, USA
[2]Department of Mechanical Engineering, Tennessee State University, Nashville, TN, USA
Publié en 2014

COMSOL® "Single Particle Model for Lithium-Ion Batteries” (Model ID: 14527) is generalized to include an energy balance. This is accomplished by approximating the solution phase polarization as a function of current and temperature. The theoretical approach for this work is similar to Guo et al. [Journal of the Electrochemical Society, 158, (2) A122-A132 (2011)] for modeling lithium ion cells. The COMSOL isothermal model run at 0.1 A provided the baseline for the open circuit potentials (OCPs). The temperature dependence of the (OCPs) and reaction entropies was determined by subsequent runs of the mass balance model at Temperatures ranging from 298-348 K. The discharge profile for the thermal model is shown in Figure 1 for 35.0 A/m² and the heat generation for the adiabatic case for a 17.5 A/m² discharge is shown in Figure 2.

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