Experimental study on the thermal management performance of air cooling for high energy density cylindrical lithium-ion batteries

Experimental study on the thermal management performance of air cooling for high energy density cylindrical lithium-ion batteries

•The thermal performance of aligned, staggered, and cross battery packs is experimentally studied.•The effect of the discharge rate and air inlet temperature on the thermal management system is analyzed.•The energy efficiency of the air cooling battery thermal management system is investigated under...

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Bibliographic Details
Published in:Applied thermal engineering Vol. 155; pp. 96 - 109
Main Authors: Fan, Yuqian, Bao, Yun, Ling, Chen, Chu, Yanyan, Tan, Xiaojun, Yang, Shuting
Format: Journal Article
Language:English
Published: Oxford Elsevier Ltd 05-06-2019
Elsevier BV
Subjects:
Air cooling
Air intakes
Alignment
Batteries
Battery arrangements
Battery thermal management
Cooling
Cooling effects
Cooling rate
Cooling systems
Density
Discharge
Energy consumption
Energy efficiency
Energy management
Flux density
Inlet temperature
Lithium-ion batteries
Power consumption
Power efficiency
Power management
Rechargeable batteries
Thermal management
Thermal performance
Battery thermal management
Air cooling
Energy efficiency
Battery arrangements
Thermal performance
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Description
Summary:•The thermal performance of aligned, staggered, and cross battery packs is experimentally studied.•The effect of the discharge rate and air inlet temperature on the thermal management system is analyzed.•The energy efficiency of the air cooling battery thermal management system is investigated under various conditions.•The upper limitation for the cooling capacity is demonstrated in this paper. To comprehensively investigate the characteristics of an air cooling system, a battery pack with 32 high energy density cylindrical lithium-ion batteries is designed in this paper. Using a series of evaluation parameters, the air cooling performances of aligned, staggered, and cross battery packs are experimentally studied and compared at different air inlet velocities. Additionally, the cooling effect and capacity of the air cooling system are investigated by changing the discharge rate and air inlet temperature. Finally, the energy efficiency of the air cooling system under various operating conditions is studied. It is found that the aligned arrangement has the best cooling performance and temperature uniformity, followed by the staggered and finally the cross arrangement. The minimum temperature always occurs in the second column along the direction of the air inlet. The parasitic power consumption increases exponentially with the air inlet velocity, and the aligned arrangement has the lowest power consumption, up to 23% less than that of the cross arrangement. Additionally, the energy efficiency of the air cooling system decreases with the increasing air velocity, and the cooling capacity has an upper limit that is proportional to the discharge rate.
ISSN:1359-4311
1873-5606
DOI:10.1016/j.applthermaleng.2019.03.157