Effect of composite cooling strategy including phase change material and liquid cooling on the thermal safety performance of a lithium-ion battery pack under thermal runaway propagation.

MLA

Xiao, Hanxu, et al. “Effect of Composite Cooling Strategy Including Phase Change Material and Liquid Cooling on the Thermal Safety Performance of a Lithium-Ion Battery Pack under Thermal Runaway Propagation.” Energy, vol. 295, May 2024, p. N.PAG. EBSCOhost, https://doi.org/10.1016/j.energy.2024.131093.

APA

Xiao, H., E, J., Tian, S., Huang, Y., & Song, X. (2024). Effect of composite cooling strategy including phase change material and liquid cooling on the thermal safety performance of a lithium-ion battery pack under thermal runaway propagation. Energy, 295, N.PAG. https://doi.org/10.1016/j.energy.2024.131093

Chicago

Xiao, Hanxu, Jiaqiang E, Sicheng Tian, Yuxin Huang, and Xinyu Song. 2024. “Effect of Composite Cooling Strategy Including Phase Change Material and Liquid Cooling on the Thermal Safety Performance of a Lithium-Ion Battery Pack under Thermal Runaway Propagation.” Energy 295 (May): N.PAG. doi:10.1016/j.energy.2024.131093.