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Review on battery thermal management systems for energy-efficient electric vehicles

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出版社

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.rser.2021.111611

关键词

Thermal management; Lithium-ion battery; Electric vehicle; Phase change materials; Supercapacitor

资金

  1. Deanship of Scientific Research at King Khalid University [RGP2/86/42]

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This paper provides an overview of battery thermal management systems (BTMSs) based on studies conducted by researchers worldwide, focusing on the importance of selecting suitable thermal management systems for enhancing battery thermal performance, as well as discussing the use of supercapacitors to improve lithium-ion battery systems. Design options and the necessary sophistication level in BTMS are also addressed to ensure battery performance and safety. The paper summarizes recent developments in BTMS, highlighting direct and indirect cooling methods and the significance of using supercapacitors to reduce thermal load on lithium-ion batteries, thus potentially reducing the cost and weight of BTMS for energy-efficient electric vehicles (EVs).
This paper provides an overview of the battery thermal management systems (BTMSs) based on the studies carried out by different researchers across the globe. The focus is on enhancing the thermal performance of the battery with the selection and incorporation of a suitable thermal management system. In addition to this, the performance enhancement of lithium-ion (Li-ion) battery systems using supercapacitor (SC) in parallel topological connection, have been discussed. The design options in BTMS and the desired level of sophistication are discussed in this study. For ensuring the performance and safety of Li-ion batteries, a suitable BTMS must be designed to regulate and control the thermal load of the batteries. This would not only result in safety but also ensure longer battery life. This paper presents the summary of recent developments in the direction of BTMS with direct and indirect cooling methods and provides significant insights into the use of SC for reducing the thermal load on the Li-ion batteries, which in turn can help in reducing the cost and weight of BTMS required for energyefficient electric vehicles (EVs).

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