Experimental Study of the Effects of a Low-expansion Foam Generator Structure on the Foaming Quality

2019 9th International Conference on Fire Science and Fire Protection Engineering (ICFSFPE) Pub Date : 2019-10-01 DOI:10.1109/ICFSFPE48751.2019.9055765

Ziyi Jiang, Wei Li, Xiumei Liu, Beibei Li, Lili Liu

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Abstract

Aqueous film-forming foam is used widely as a means of fire extinguishing, especially for both chemical process industry and oil industry fires. The corresponding low-expansion foam generator always uses negative pressure generated by a high-velocity jet to draw in air to create a low-expansion foam. Considering the interactions between factors, an orthogonal test was established to characterize their performance. This conclusion was verified using the method recommended in GB15308-2006, the standard issued by the Standardization Administration of the People's Republic of China. It was found that the nozzle convergence angle and the ratio of the nozzle position to the throat pipe diameter of the generator were the predominant factors. The optimal foam generator configuration had a nozzle position of 1.2 times the diameter of the throat pipe, a nozzle convergence angle of 11º and throat pipe length of 7.5 times the diameter of the throat pipe. This study contributes to the optimization of a low-expansion foam generator.

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低膨胀泡沫发生器结构对泡沫质量影响的实验研究

水成膜泡沫作为一种灭火手段被广泛应用，特别是在化学加工工业和石油工业的火灾中。相应的低膨胀泡沫发生器总是利用高速射流产生的负压吸入空气来产生低膨胀泡沫。考虑各因素之间的相互作用，建立了正交试验来表征各因素的性能。采用中华人民共和国国家标准化管理委员会发布的GB15308-2006标准中推荐的方法验证了该结论。结果表明，喷嘴的会聚角和喷嘴位置与发电机喉道管径的比值是影响发电机性能的主要因素。最优泡沫发生器配置喷嘴位置为喉管直径的1.2倍，喷嘴会聚角为11º，喉管长度为喉管直径的7.5倍。本研究为低膨胀泡沫发生器的优化设计提供了依据。

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

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