%0 Generic %A Jin, N. (Ning) %A Danilov, D.L. (Dmitri) %A van den Hof, P.M.J. (Paul) %A Donkers, Tijs %D 2017 %T Parameter Estimation of an Electrochemistry-based Lithium-ion Battery Model using a Two-Step Procedure and a Parameter Sensitivity Analysis %U https://data.4tu.nl/articles/dataset/Parameter_Estimation_of_an_Electrochemistry-based_Lithium-ion_Battery_Model_using_a_Two-Step_Procedure_and_a_Parameter_Sensitivity_Analysis/12676028/1 %R 10.4121/uuid:0d19258e-8fe2-44b7-b390-cfc205669528 %K Lithium-ion batteries %K Modelling %K Parameter estimation %K Sensitivity analysis %X Data and simulation files of the paper “Parameter Estimation of an Electrochemistry-based Lithium-ion Battery Model using a Two-Step Procedure and a Parameter Sensitivity Analysis” by N. Jin, D. Danilov, P.M.J. van den Hof and M.C.F. Donkers. Simulation files can be used using Matlab 2017a. The instruction.docx in this data set contains an explanation of the folders and files used, and refers to several sections of the paper . Parts of the m-files are re-used from “Lu J. Development of fast one-dimensional model for prediction of coupled electrochemical/thermal behavior of Lithium-ion batteries. Bachelor’s thesis, The Ohio State University; 2013.” The model produces the following outputs: solid concentration, electrolyte concentration, electrolyte potential, solid potential, surface concentration in solid phase and terminal voltage. %I TU Eindhoven