Research on Thermal Dissipation Characteristics of Power Lithium-Ion Battery Module with Phase Change Cooling
Authors: 
Biao Jin, Qiang Fei, Wuyuan ZouAuthors Info & Claims
Pages 441 - 445
Abstract
As an important part of battery electric vehicles, lithium-ion batteries will generate much heat in the working process. If heat dissipation measures are not taken in time, the accumulated heat will have a great impact on the battery temperature rise, seriously causing some battery safety incidents. To solve the cooling problem of lithium-ion batteries during charging and discharging cycle, in this paper, a square cooling module of lithium-ion power battery with phase change material (PCM) was designed, whose heat production and heat dissipation were established, which were coupled with the air-cooling heat dissipation model. Finally, a two-dimensional active and passive heat dissipation model of lithium battery module was formed, based on the thermal model, the simulation module in ANSYS Fluent was made use of simulating the thermal dissipation characteristics. The simulation results show that when the coefficient of convective heat transfer is 12, 60, 120W/(m2·K), the highest temperature of the battery module is 142.8℃, 74.6℃, 41.9℃, respectively, which indicates that the coefficient has an important influence on its maximum temperature. Secondly, during the whole charging-discharging cycle, its maximum temperature is 82.2℃, 79.1℃, 77.7℃and 75.1℃, respectively, when the standing time is 0, 5, 10 and 20min. Obviously, increasing the standing time can reduce its maximum temperature. In addition, the continuous heat accumulation will lead to the failure of PCM, at this time, the PCM needs to be coupled with other cooling technologies such as forced air cooling.
References
[1]
NAZIR H, BATOOL M, BOLIVAR OSORIO F J, Recent developments in phase change materials for energy storage applications: a review. International Journal of Heat and Mass Transfer, 2019, 129:491-523.
[2]
ELIAS C N, STATHOPOULOS V N. A comprehensive review of recent advances in materials aspects of phase change materials in thermal energy storage. Energy Procedia, 2019, 161: 385-394.
[3]
RANJBARAN Y S. Improving the Thermal Performance of PCM-based Battery Thermal Management System Applied in Green Vehicles// 7th International Conference on Mechanical, Construction, Industrial and Civil Engineering. 2021.
[4]
LV Y, YANG X, LI X, Experimental study on a novel battery thermal management technology based on low density polyethylene-enhanced composite phase change materials coupled with low fins. Applied Energy, 2016, 178(9):376-382.
[5]
AL HALLAJ S, SELMAN J R. Thermal modeling of secondary lithium batteries for electric vehicle/hybrid electric vehicle applications. Journal of Power Sources, 2002, 110(2): 341-348.
[6]
PING P, PENG R Q, KONG D P, Investigation on thermal management performance of PCM-fin structure for Li-ion battery module in high-temperature environment. Energ Convers Manage, 2018, 176: 131–146.
[7]
ZHANG P, MENG Z N, ZHU H, Experimental and numerical study of heat transfer characteristics of a paraffin/metal foam composite PCM. Energ Procedia, 2015, 75: 3091–3097.
[8]
LI W Q, QU Z G, HE Y L, Experimental study of a passive thermal management system for high-powered lithium-ion batteries using porous metal foam saturated with phase change materials. J Power Sources, 2014, 255: 9–15.
[9]
LING Z Y, WANG F X, FANG X M, A hybrid thermal management system for lithium-ion batteries combining phase change materials with forced-air cooling. Applied Energy, 2015, 148: 403-409.
[10]
ZHAO F. Research on thermal management of Lithium-ion batteries based on combination of phase change materials and liquid, Nan Chang University, 2021.
[11]
LI G Y. Thermal Management and Thermal Runaway Propagation Characteristics of Lithium-ion batteries based on Phase Change Materials, Hefei University of Technology, 2021.
[12]
BERNARDI D. A general energy balance for battery systems. Journal of the Electrochemical Society, 1985, 132(1): 5-12.
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Published In
April 2022
1065 pages
ISBN:9781450395786
DOI:10.1145/3544109
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Association for Computing Machinery
New York, NY, United States
Publication History
Published: 18 July 2022
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- Research-article
- Research
- Refereed limited
Funding Sources
- Dongguan Sci-tech Commissioner Program
- the characteristic innovation project of Guangdong province general university
Conference
IPEC2022
IPEC2022: 2022 3rd Asia-Pacific Conference on Image Processing, Electronics and Computers
April 14 - 16, 2022
Dalian, China
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