Experiment-based Methodology of Kinetic Battery Modeling for Energy Storage

This paper presents a methodology of the battery modeling based on experimental tests results. As main contribution, authors conducted an analysis of the main constraints and effects of each parameter of the batteries model on its behavior and lifetime. This can help to improve the accuracy of the model. Due to its capability to model the recovery effect and the rate-capacity one, the Kinetic Battery Model serves as basis of the study. Results of experimental tests are used to realize the analysis and to define the suitable methodology of batteries parameters identification. These last can serve for prediction and estimation of the battery lifetime according to the actual operating conditions, particularly in microgrid and distributed systems.
Nowadays, there are several challenges concerning the energy production and consumption over the world [1][2]. The innovative and promising ways are related to the smart grid that are based on the mixing of the energy sources and storage devices [3]–[6][29].
Kinetic Battery Model, Modelling, Lead-acid battery, Energy storage, Characterization, Experimental tests
Bako, Z.N., Tankari, M.A., Lefebvre, G., Maiga, A.S. (2018) Experiment-based Methodology of Kinetic Battery Modeling for Energy Storage.