A Modified Doyle-Fuller-Newman Model Enables the Macroscale Physical Simulation of Dual-ion Batteries - Dataset and Software
Authors/Creators
- 1. Helmholtz Institute Ulm, Karlsruhe Institute for Technology
- 2. Université Catholique de Louvain
- 3. Helmholtz Institute Ulm, Karlsruhe Institue for Technology, Universitá La Sapienza Roma
Description
This dataset contains:
- all the raw cycling data of the three-electrode cell used to gather the experimental data for the model validation (VMP data, exported with EC-LAB);
- the specific, processed data used in the model validation step (0.2C discharge, 5C discharge, EIS data);
- the COMSOL dual-ion battery model (version 6.0). IMPORTANT: activate the "Electric potential at the positive electrode current collector (only for EIS)" boundary condition when simulating impedance spectroscopy, and deactivate it when simulating charge/discharge curves; the charge-discharge profile can be modified by changing the duration of the test, the C-rate, and the conditions set in the "Events" section.
Update: Fixed the model to work also in the 6.2 version of COMSOL (Substituted Dleff with Dleffxx in the modified weak expression of the cathode mass conservation equation). Download the new version!
Files
Cycling data.zip
Files
(49.6 MB)
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Additional details
Funding
Dates
- Available
-
2024-09-16