Fire Behavior in a Poorly Ventilated Compartment

Heat Transfer: Volume 4 — Combustion and Energy Systems Pub Date : 2001-11-11 DOI:10.1115/imece2001/htd-24244

K. Wakatsuki, B. Ringwelski, J. Quintiere

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引用次数: 3

Abstract

The fire behavior of heptane burning in a poorly ventilated compartment was studied. The diameter of the heptane pan fires were varied and the ventilation opening size and location were adjusted. Two kinds of compartment fire experiment were conducted: (1) horizontal slits at the top and bottom of a wall, and (2) a single vent at the roof. Temperature, oxygen, fuel mass loss rate and differential pressure were measured. Extinction was studied with an oxygen meter to find the minimum oxygen concentration in the compartment achieved in ventilation-controlled fires. Extinguishments due to ventilation or complete fuel consumption was distinguished. Flow exchange was measured by differential pressure transducers. Particularly, flow exchange of ceiling vent was examined by calculation of flooding pressure difference, which will allow bi-directional flow. The wall vent case had oscillatory combustion (puffing), which sometimes leads to an increase in fire amplitude followed by extinction. This was not observed for the ceiling vent case. Video recording of the flame was conducted through a glass on sidewall. The fire behavior varied from conditions in which the flame extinguishes to cases of steady burning. In some cases, “ghosting flames” were observed.

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通风不良的隔间内的火灾行为

研究了正庚烷在不通风室内燃烧时的燃烧行为。改变了庚烷盘火的直径，调整了通风口的大小和位置。进行了两种不同类型的隔室火灾试验:(1)墙体上下水平开缝，(2)顶板单通风口。测量了温度、氧气、燃料质量损失率和压差。用氧气计研究了在通风控制的火灾中隔间内达到的最低氧气浓度。由于通风或完全燃料消耗引起的熄灭被区分开来。用差压传感器测量流量交换。特别地，通过计算溢流压差，考察了吊顶通风口的流量交换，从而实现双向流动。壁式通风口具有振荡燃烧(膨化)，有时会导致火焰振幅增大，随后熄灭。在天花板通风口的情况下没有观察到这一点。火焰的视频记录是通过侧壁的玻璃进行的。从火焰熄灭的情况到稳定燃烧的情况，火灾的行为各不相同。在某些情况下，观察到“鬼影火焰”。

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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Heat Transfer: Volume 4 — Combustion and Energy Systems

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