Core Temperature Estimation for a Cylindrical Cell Battery Module

Core Temperature Estimation for a Cylindrical Cell Battery Module

Rath, S.S.
Hoedemaekers, E.R.G.E.
Wilkins, S.S.

2020

Lithium ion (Li-ion) batteries in electric vehicle (EV) applications must operate within a narrow temperature range to ensure safety, performance and longevity. Hence, advanced thermal management strategies should have access to internal cell temperatures in a battery pack. In real world application, surface temperatures can be measured, but it is difficult to place a sensor at the core (which can be more than 10◦C higher that the surface) due to the added cost and intrusive nature. In this paper, a pack level thermal model is developed for a cylindrical cell battery module which is modular and scalable. This model is used in a Kalman filter based Thermal State Observer (TSO) which is constructed to be real-time capable for application in a Battery Management System (BMS). The TSO uses limited cell surface measurements to estimate the core temperature of the full battery pack. The paper also discusses the methodology for characterization and validation of the thermal model and TSO.

Battery Core Temperature Estimation
Battery Thermal Model
Thermal Fault Handeling
Thermal State Observer
Battery Pack
Lithium-ion batteries
Surface measurement
Thermography (temperature measurement)
Vehicles
Battery management systems

http://resolver.tudelft.nl/uuid:d334f447-b1a2-4e8e-942e-0bcbfdc4a828

https://doi.org/10.1109/ever48776.2020.9243110

884284

Institute of Electrical and Electronics Engineers Inc.

9781728156415

2020 15th International Conference on Ecological Vehicles and Renewable Energies, EVER 2020, 15th International Conference on Ecological Vehicles and Renewable Energies, EVER 2020, 10 September 2020 through 12 September 2020

conference paper