Critical review towards thermal management systems of lithium-ion batteries in electric vehicle with its electronic control unit and assessment tools

Lithium-ion batteries are facing difficulties in an aspect of protection towards battery thermal safety issues which leads to performance degradation or thermal runaway. To negate these issues an effective battery thermal management system is absolute pre-requisite to safeguard the lithium-ion batteries. In this context to support the future endeavours and to improvise battery thermal management system (BTMS) design and its operation the article reveals on three aspects through the analysis of scienti?c literatures. First, this paper collates the present research progress and status of various battery management strategies employed to lithium-ion batteries. Further, to promote stable and efficient BTMS operation as an initiation the extensive attention is paid towards roles of BTMS electronic control unit and also presented the essential functionality need to consider for designing best BTMS control strategy. Finally, elucidates the various unconventional assessment tools can be employed to recognize the suitable thermal management technique and also for establish optimum BTMS operation based on requirements. From the experience of this article additionally delivers some of the research gaps identified and the essential areas need to focus for the development of superior lithium-ion BTMS technology. All the contents reveal in this article will hopefully assist to the design commercially suitable effective BTMS technology especially for electro-mobility application.

Automated summary

The article discusses the challenges faced by lithium-ion batteries in terms of thermal safety issues and emphasizes the importance of an effective battery thermal management system. It explores various battery management strategies, the role of the BTMS electronic control unit, and unconventional assessment tools for optimal BTMS operation. Additionally, it highlights research gaps and areas for further development in lithium-ion BTMS technology.