地下停车场电动汽车全尺寸火灾试验

2019 9th International Conference on Fire Science and Fire Protection Engineering (ICFSFPE) Pub Date : 2023-10-31 DOI:10.7731/kifse.9170e1e5

Yeon Je Shin, Minjae Kwon, Sungwook Kang, Joung Yoon Choi

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引用次数: 0

摘要

为评估现代纯电动汽车(BEV)在地下停车场发生火灾的危险性，进行了全尺寸试验。搭建了一个尺寸为7800 × 7800 × 2300 mm的试验台，模拟地下停车场的角落段。纯电动汽车被安置在建筑一角的停车场里。锂离子电池组使用电加热片加热，以激活电池组内部的热失控。利用热电偶测量了试验台内部空间的温度分布。邻近车辆的入射热通量也通过放置在测试车辆周围的热通量计来估计。在试验台顶棚下积聚的可燃气体初次点火后，观察到瞬间爆燃通风。这一现象加速了BEV火灾的发展，导致平均顶棚喷射温度为1000℃，峰值热流密度为225 kW/m2

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A Full-scale Fire Test on Electric Vehiclein an Underground Car Parks

A full-scale test was conducted to evaluate the risk of a modern battery electric vehicle (BEV) fire in an underground car park. A test rig 7,800 × 7,800 × 2,300 mm in size was built to simulate the corner segment of an underground car park. The BEV was positioned in a parking bay at a corner of the structure . The lithium-ion battery pack was heated using an electric heating sheet to activate thermal runaway inside the pack. The temperature distribution in the internal space of the test rig was measured using a thermocouple. The incident heat fluxes on neighboring cars were also estimated using heat flux gauges positioned around the test vehicle. Deflagration venting was observed instantaneously after the initial ignition of the flammable gas accumulated under the ceiling of the test rig. This phenomenon accelerated the growth of the BEV fire, resulting in an average ceiling jet temperature of 1,000 ℃ and a peak heat flux of 225 kW/m².

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2019 9th International Conference on Fire Science and Fire Protection Engineering (ICFSFPE)

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