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Publication . Article . 2019

A review on various temperature-indication methods for Li-ion batteries

L.H.J. Raijmakers; DL Dmitry Danilov; Rüdiger-A. Eichel; Peter H. L. Notten;
Open Access
Published: 15 Apr 2019 Journal: Applied Energy, volume 240, pages 918-945 (issn: 0306-2619, Copyright policy )
Publisher: Elsevier BV
Abstract
© 2019 Elsevier Ltd Temperature measurements of Li-ion batteries are important for assisting Battery Management Systems in controlling highly relevant states, such as State-of-Charge and State-of-Health. In addition, temperature measurements are essential to prevent dangerous situations and to maximize the performance and cycle life of batteries. However, due to thermal gradients, which might quickly develop during operation, fast and accurate temperature measurements can be rather challenging. For a proper selection of the temperature measurement method, aspects such as measurement range, accuracy, resolution, and costs of the method are important. After providing a brief overview of the working principle of Li-ion batteries, including the heat generation principles and possible consequences, this review gives a comprehensive overview of various temperature measurement methods that can be used for temperature indication of Li-ion batteries. At present, traditional temperature measurement methods, such as thermistors and thermocouples, are extensively used. Several recently introduced methods, such as impedance-based temperature indication and fiber Bragg-grating techniques, are under investigation in order to determine if those are suitable for large-scale introduction in sophisticated battery-powered applications.
Subjects by Vocabulary

Microsoft Academic Graph classification: Thermocouple Temperature measurement Thermistor Range (aeronautics) Process engineering business.industry business Heat generation Battery management systems

Subjects

Management, Monitoring, Policy and Law, Mechanical Engineering, General Energy, Building and Construction, Thermal battery management; Li-ion batteries; Temperature sensors; Temperature distribution; Temperature measurement methods, Energy, Li-ion batteries, Temperature distribution, Temperature measurement methods, Temperature sensors, Thermal battery management

Funded by
EC| DEMOBASE
Project
DEMOBASE
DEsign and MOdelling for improved BAttery Safety and Efficiency
  • Funder: European Commission (EC)
  • Project Code: 769900
  • Funding stream: H2020 | RIA
Validated by funder
,
EC| AutoDrive
Project
AutoDrive
Advancing fail-aware, fail-safe, and fail-operational electronic components, systems, and architectures for fully automated driving to make future mobility safer, affordable, and end-user acceptable.
  • Funder: European Commission (EC)
  • Project Code: 737469
  • Funding stream: H2020 | ECSEL-RIA
Validated by funder
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