Thermal management systems for lithium-ion batteries based on the cooling and heating of phase change materials have become a popular research topic.
Since 2014, the number of annual research literature has shown a rapid upward trend and reached more than one hundred articles for the first time in 2021, with more and more scholars investigating different perspectives on the application of phase change materials in the thermal management of lithium-ion batteries.
Secondly, research has focused on optimizing the cooling method in phase change material-based battery thermal management systems, by adding metals such as aluminum foam to enhance cooling performance to prevent leakage of phase change materials and reduce system weight.
In combination of the research progress and critical technologies of composite phase change materials, a specific review of the applications based on composite phase change materials in battery thermal management systems is mainly presented.
In order to improve the thermal management performance of lithium batteries, he has conducted extensive research to improve the thermal stability, shape stability, and flame retardancy of composite phase change materials [ 41, 42, 43 ].
One of the cooling methods is a passive cooling system using a phase change material (PCM). PCM can accommodate a large amount of heat through small dimensions. It is easy to apply and requires no power in the cooling system. This study aims to find the best type of PCM criteria for a Lithium-ion battery cooling system.
Temperature is an important factor affecting the working efficiency and service life of lithium-ion battery (LIB). This study carried out the experiments on the thermal performances of Sanyo ternary and Sony LiFePO4 batteries under different …
The thermal gradient within the system should not exceed 5 °C. An effective Battery Thermal Management System can mitigate this problem. This study analysed a lithium …
The lithium-ion battery is promising energy storage that provides proper stability, no memory effect, low self-discharge rate, and high energy density. During its usage, batteries …
Shang, S.; Jian-zu, Y.U.; Yong-qi, X.I.E.; Hong-xia, G.A.O.; Ming, L. Temperature rise characteristics of phase change material/air cooling integrated thermal management system …
This review introduces the modification and optimization of composite phase change materials and their application in the thermal management system of lithium-ion …
Thermal management systems for lithium-ion batteries based on the cooling and heating of phase change materials have become a popular research topic. However, the low thermal conductivity, flame resistance, high …
They applied the expanded graphite-based phase change material to lithium-ion battery thermal management systems for the first time, combining experimental and simulation …
This paper comprehensively reviews the phase change materials application in the battery thermal management in an electric vehicle along with the various techniques for …
Exploring the application of phase change materials in the thermal management of lithium-ion batteries, optimizing the thermophysical properties and storage structures of …
Performance improvement of a thermal management system for Lithium-ion power battery pack by the combination of phase change material and heat pipe Journal of …
Shang, S.; Jian-zu, Y.U.; Yong-qi, X.I.E.; Hong-xia, G.A.O.; Ming, L. Temperature rise characteristics of phase change material/air cooling integrated thermal management system …
At present, the application of hydrate phase change materials in the field of thermal management of lithium-ion batteries is relatively few. According to the above existing …
Hybrid thermal management of lithium-ion batteries using nanofluid, metal foam, and phase change material: an integrated numerical–experimental approach
Li-ion battery is an essential component and energy storage unit for the evolution of electric vehicles and energy storage technology in the future. Therefore, in order …
The thermal gradient within the system should not exceed 5 °C. An effective Battery Thermal Management System can mitigate this problem. This study analysed a lithium-ion battery with a bag structure. Temperature control …
The lithium-ion battery is promising energy storage that provides proper stability, no memory effect, low self-discharge rate, and high energy density. During its usage, batteries …
This review introduces the modification and optimization of composite phase change materials and their application in the thermal management system of lithium-ion …