W. X. Zhang, X. Chen, Q. P. Chen, C. Ding, J. H. Liu, M. Y. Chen and J. Wang (2015) Combustion calorimetry of carbonate electrolytes used in lithium ion batteries. Journal/Journal Of Fire Sciences 33 22-36. [In English]
Web link: http://dx.doi.org/10.1177/0734904114550789
Keywords: Lithium ion battery, electrolyte, combustion property, cone calorimeter, heat release rate calculation, ACCELERATING RATE CALORIMETRY, HEAT RELEASE RATE, THERMAL-STABILITY, NONAQUEOUS SOLVENTS, CELLS, LI0.5COO2, GRAPHITE, BEHAVIOR, ISSUES, OXYGEN
Abstract: In this article, some of the combustion properties of three carbonate solvent mixtures commonly used as the electrolytes of lithium ion batteries are considered by means of the ISO 5660 cone calorimeter. Experimental findings reveal that the heat release rate, the most important parameter in fire science, exhibits a significant variation among the carbonate mixtures. Other key parameters governing the fire-induced hazards such as total heat release, mass loss rate, combustion efficiency, and concentration of the major exhaust gases are also determined and analyzed. Furthermore, as some researchers argue that oxygen consumption calorimetry is likely to over-predict the chemical heat release for lithium ion cells, another thermal chemistry method based on stoichiometry for heat release rate calculation is adopted. Heat release rate results of the three carbonate solvent mixtures obtained by these two separate methods are found to be in good agreement. Thus, oxygen consumption calorimetry is considered to be an appropriate technique to determine the heat release in fires in relation to electrolytes of lithium ion batteries.

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