Field Synergy Analysis and Optimization of the Thermal Behavior of Lithium Ion Battery Packs

In this study, a three dimensional (3D) modeling has been built for a lithium ion battery pack using the field synergy principle to obtain a better thermal distribution. In the model, the thermal behavior of the battery pack was studied by reducing the maximum temperature, improving the temperature...

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Published inEnergies (Basel) Vol. 10; no. 1; p. 81
Main Authors He, Hongwen, Jia, Hui, Huo, Weiwei, Sun, Fengchun
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.01.2017
Subjects
battery pack
Design optimization
Electric batteries
electric vehicle
field synergy principle
Lithium
Lithium-ion batteries
Optimization
Rechargeable batteries
Temperature
temperature uniformity
Thermal properties
Three dimensional models
Variability
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Abstract In this study, a three dimensional (3D) modeling has been built for a lithium ion battery pack using the field synergy principle to obtain a better thermal distribution. In the model, the thermal behavior of the battery pack was studied by reducing the maximum temperature, improving the temperature uniformity and considering the difference between the maximum and maximum temperature of the battery pack. The method is further verified by simulation results based on different environmental temperatures and discharge rates. The thermal behavior model demonstrates that the design and cooling policy of the battery pack is crucial for optimizing the air-outlet patterns of electric vehicle power cabins.
AbstractList In this study, a three dimensional (3D) modeling has been built for a lithium ion battery pack using the field synergy principle to obtain a better thermal distribution. In the model, the thermal behavior of the battery pack was studied by reducing the maximum temperature, improving the temperature uniformity and considering the difference between the maximum and maximum temperature of the battery pack. The method is further verified by simulation results based on different environmental temperatures and discharge rates. The thermal behavior model demonstrates that the design and cooling policy of the battery pack is crucial for optimizing the air-outlet patterns of electric vehicle power cabins.
Author Jia, Hui
He, Hongwen
Sun, Fengchun
Huo, Weiwei
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StartPage 81
SubjectTerms battery pack
Design optimization
Electric batteries
electric vehicle
field synergy principle
Lithium
Lithium-ion batteries
Optimization
Rechargeable batteries
Temperature
temperature uniformity
Thermal properties
Three dimensional models
Variability
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Title Field Synergy Analysis and Optimization of the Thermal Behavior of Lithium Ion Battery Packs
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