Experimental Study on a Fire Causedby Diesel Particulate Filter Regeneration

2019 9th International Conference on Fire Science and Fire Protection Engineering (ICFSFPE) Pub Date : 2023-10-31 DOI:10.7731/kifse.9291ed74

Sun Jae Kim, Tae Hoon Kim, Young Soo Gong, Ki Tae Lee, Dong Gyu Lee, Hyun Won Lee, Woo Seung Woo, Jae Geun Oh

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Abstract

In this study, a vehicle fire caused by diesel particulate filter (DPF) regeneration in a truck was investigated and analyzed. A DPF is a filter that collects soot from the exhaust gas; when certain conditions are met, the soot collected in the DPF is burned by the high-temperature exhaust gas. This process is referred to as regeneration. During DPF regeneration, the high-temperature exhaust gas is ejected and combustibles around the exhaust outlet under the vehicle may ignite. Herein, we analyzed a case of fire that occurred in an underground parking lot in 2022. The vehicle was parked for loading, and the fire broke out approximately 6 min later. During the field investigation, traces of combustion were observed in the paper boxes stacked around the truck’s exhaust port. Thus, we conducted a DPF regeneration experiment using a vehicle similar to that which caught fire. The experimental results confirmed that the surrounding combustibles can be ignited by the high-temperature heat generated during DPF regeneration. Further analysis indicated the necessity of being aware of the risk of fire owing to DPF regeneration when vehicles are parked or stopped and combustible materials are present around the exhaust outlet.

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柴油机微粒过滤器再生引发火灾的实验研究

以某载货汽车为研究对象，对柴油机微粒过滤器(DPF)再生引发的车辆火灾进行了调查和分析。DPF是一个从废气中收集烟灰的过滤器;当满足一定条件时，DPF中收集的烟尘被高温废气燃烧。这个过程被称为再生。DPF再生过程中，高温废气排出，车底排气口周围的可燃物可能被点燃。在此，我们分析了2022年发生在地下停车场的火灾案例。这辆车当时正在停车装货，大约6分钟后起火。在现场调查中，在堆放在卡车排气口周围的纸盒中观察到燃烧的痕迹。因此，我们使用与着火车辆相似的车辆进行了DPF再生实验。实验结果证实，DPF再生过程中产生的高温热量可以点燃周围的可燃物。进一步的分析表明，当车辆停放或停止并且排气口周围存在可燃材料时，必须意识到由于DPF再生而发生火灾的风险。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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

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