Impact of the number of tubes containing nanofluid flow on the melting and freezing of phase change materials in the thermal management of plate lithium-ion batteries

Phase change material (PCM) and nanofluids (NFs) flow are used in three-dimensional simulations for the thermal management (TMGT) of a plate battery. On each side of the battery, there are two enclosures in which the PCM is housed. Within the PCM, there is a tube that allows alumina/water NFs to flo...

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Bibliographic Details
Published in:Engineering analysis with boundary elements 2023-06, Vol.151, p.464-472
Main Authors: Chen, Haiji, Zhou, Wanlin, Yuan, Yanjie, Heidarshenas, Behzad
Format: Article
Language:English
Subjects:
Nanofluid
PCM
Plate battery
Thermal management
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Summary:Phase change material (PCM) and nanofluids (NFs) flow are used in three-dimensional simulations for the thermal management (TMGT) of a plate battery. On each side of the battery, there are two enclosures in which the PCM is housed. Within the PCM, there is a tube that allows alumina/water NFs to flow. The two-phase model is used to simulate the NFs flow, the number of tubes inside the PCM is varied from 1 to 4, and the NFs velocity (VNF) is changed from 10 to 30 mm/s. Also, the distance of the tubes from the battery center changes to determine the volume fraction of molten PCM (VFMPC) and the maximum temperature of the battery (T-BT). For the simulations, the finite element technique (FEM) is used. The findings show that the lowest maximum T-BT and VFMPC are caused by a 5-mm distance between the tubes, whereas the greatest maximum temperature (T-MX) and VFMPC are caused by an 8-mm gap. The use of more tubes in PCM causes the VFMPC to be decreased. Besides, the maximum T-BT is reduced with time. Enhancing the VNF causes the maximum T-BT to decrease. The maximum T-BT is decreased by 45.37% in 1200 s by adjusting the VNF from 10 to 30 mm/s.
ISSN:0955-7997
1873-197X
DOI:10.1016/j.enganabound.2023.03.029