Dear Colleagues,

Nowadays, batteries are becoming more and more popular in electric vehicles, household energy storage, and large-scale grid energy storage. In order to make the battery energy storage technology more competitive than other energy storage methods, high reliability and long life have always been the goal of battery energy storage technology. The deepening of battery physics research, the development of new machine learning algorithms and new sensor technologies have provided unprecedented opportunities for a higher level of battery management system (BMS). Traditional state estimation and lifetime prediction methods can become more accurate and reliable, and can adapt to battery aging and a wider range of temperature and current rate, helping us grasp the real state of the battery. Fault diagnosis methods developed by means of Big Data analysis and multi-source sensor fusion can identify and locate faults more quickly and accurately. The online identification of battery electrical and thermal abuse boundaries can provide a more scientific basis for battery safety and long life scheduling.

To that end, the potential topics of this Special Issue include, but are not limited to:

• Applications of multi-physics modelling in BMS;
• Applications of machine learning methods in BMS;
• Applications of novel force, thermal, electrical, and gas sensors in BMS;
• Optimal design and control of thermal management system;
• Optimal scheduling of energy storage battery system with the goal of extending service life.

Prof. Dr. Chao Lyu
Dr. Jianing Xu
Dr. Yuchen Song
Guest Editors

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• battery energy storage
• battery management system
• thermal management
• multi-physics modelling
• machine learning
• novel sensor techniques
• optimal scheduling of energy storage battery