Coupled NTG thermal
In this example, processed experimental discharge data under various C-rates are normalized against time and cell potentials are plotted against the current density coordinates. Intercepts of these curves at zero current density represent the values of open circuit potential and the slopes represent the reciprocal of the cell polarization parameter. These discrete data points can be curve fitted to a polynomial expression to accurately parameterize the NTG model.
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Cylindrical cell
In this example we demonstrate the loose coupling of three components for a cylindrical cell (i.e, Dualfoil for Electro-Chemistry transport, Amperes for Electrical flow and Amperes for Thermal transport). All the components and simulation parameters are defined inside the configuration file.
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Pouch cell
Default case in ICE with the NTG model coefficients based on NMC-Graphite cell discharge profiles. All the components and simulation parameters are defined inside the configuration file.
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Unrolled cell
In this example we demonstrate the loose coupling of two components for an unrolled cell (i.e. Dualfoil for electro-chemistry transport and Amperes for thermal transport). All components and simulation parameters are defined in the provided configuration file.
Jupyter NotebookUpdated on November 7, 2019