Measurement and Prediction of Combustion Characteristics of DEC(Diethyl Carbonate) + DMMP(Dimethyl Methylphosphonate) for Secondary Battery Solutions 


Vol. 38,  No. 5, pp. 8-14, Oct.  2023
10.14346/JKOSOS.2023.38.5.8


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  Abstract

This study presents the characteristics of short circuits (SCs) caused by excessive currents in high-voltage cables used in electric vehicles and emphasizes the need to calculate the cross-sectional areas of these cables according to the SC current. Three direct current power supplies were connected in parallel to test the SC characteristics caused by excessive currents, and a timer and a magnetic contactor were used to deliver the conduction time and SC current. A circular infrared-radiation heater was used to test the temperature-dependent SC characteristics, a thermocouple was used to measure the temperature, and a shunt resistor was used to measure the current. As the SC current increased, the fusing time of the cable decreased. Additionally, a high-voltage cable (with an area of 16 mm2) used in electric vehicles fused when a current (approximately equal to 55 times the allowable current) flowed for 0.2 s (operating time of the protective device). When the SC current is 10 kA, the cable may fuse during the operating time of the protective device, thus creating a fire hazard. In electric vehicles, the size of the SC current increases in proportion to the capacity of the battery. Thus, the cross-sectional areas of the cables used should be calculated accordingly, and cable operations should be properly coordinated with the surrounding protective devices.

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  Cite this article

[IEEE Style]

장유선, 장유리, 최재준, 전덕재, 김용구, 하동명, "Measurement and Prediction of Combustion Characteristics of DEC(Diethyl Carbonate) + DMMP(Dimethyl Methylphosphonate) for Secondary Battery Solutions," Journal of the Korean Society of Safety, vol. 38, no. 5, pp. 8-14, 2023. DOI: 10.14346/JKOSOS.2023.38.5.8.

[ACM Style]

장유선, 장유리, 최재준, 전덕재, 김용구, and 하동명. 2023. Measurement and Prediction of Combustion Characteristics of DEC(Diethyl Carbonate) + DMMP(Dimethyl Methylphosphonate) for Secondary Battery Solutions. Journal of the Korean Society of Safety, 38, 5, (2023), 8-14. DOI: 10.14346/JKOSOS.2023.38.5.8.

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