Predicting the flashover occurrence and energy distribution in compartment fires with different boundary materials

IF 3.4 3区 工程技术 Q2 ENGINEERING, CIVIL
Ting Xia , Hongli Ruan , Yu Wang
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引用次数: 0

Abstract

Buildings with different wall/ceilings present different burning characteristics, significantly increasing the difficulty in predicting enclosure fire development and spread. In this work, to investigate the mechanism of the influence of boundary conditions on compartment fire dynamics, a total of 54 bench-scale experiments with one quarter dimension of ISO 9705 were conducted with three boundary materials, namely, calcium silicate board, corrugated steel sheet and rock wool sandwich plate; for each boundary material, six different square pans of 80 mm, 100 mm, 150 mm, 200 mm, 250 mm and 300 mm were used to provide different energy release rates of fuel to determine the critical conditions for flashover occurrence and energy distribution in the compartment. Parameters such as the mass loss rate of fuel, temperatures of gas and wall/ceilings surfaces, start time of ejected flame and length of flame ejected from the opening were measured and analysed. It was found that with the identical pan size, flashover is most likely to occur in the compartment of the sandwich panel, and it is most difficult for flashover to occur in the compartment of the calcium silicate board. Among the three boundary conditions, compartments consisting of high thermal conductivity material on the inner surface of wall/ceilings (corrugated steel sheet and rock wool sandwich plate) show higher HRR, compartment gas temperature and inner wall/ceilings surface temperature. Through the experimental data at the pre-flashover stage, the relationships between the HRR, upper gas temperature, fuel pan size, compartment opening, and parameters of the boundary materials were quantitatively established by energy conservation to predict the occurrence of flashover, which is suitable for thermally thin, thermally thick and composite boundaries. Moreover, an energy distribution theory for the transient state was developed to predict the HRR of compartment fires very well under different boundary conditions and fuel loads.

预测采用不同边界材料的隔间火灾中闪燃的发生和能量分布
不同墙壁/天花板的建筑物具有不同的燃烧特性,这大大增加了预测围护结构火灾发展和蔓延的难度。为研究边界条件对隔间火灾动力学的影响机理,本研究采用硅酸钙板、波纹钢板和岩棉夹心板三种边界材料,以 ISO 9705 标准的四分之一尺寸进行了 54 次台架试验;针对每种边界材料,分别采用 80 毫米、100 毫米、150 毫米、200 毫米、250 毫米和 300 毫米的六种不同方盘,提供不同的燃料能量释放率,以确定闪燃发生的临界条件和隔间内的能量分布。测量和分析了燃料的质量损失率、气体和墙壁/天花板表面的温度、喷射火焰的开始时间以及火焰从开口喷射的长度等参数。结果发现,在锅的尺寸相同的情况下,闪蒸最有可能发生在夹芯板的隔间中,而闪蒸最难发生在硅酸钙板的隔间中。在三种边界条件中,由墙壁/天花板内表面高导热材料(波纹钢板和岩棉夹芯板)组成的隔间具有较高的热阻系数、隔间气体温度和墙壁/天花板内表面温度。通过闪蒸前阶段的实验数据,利用能量守恒定量建立了 HRR、上层气体温度、燃料盘尺寸、隔间开度和边界材料参数之间的关系,从而预测闪蒸的发生,适用于热薄、热厚和复合边界。此外,还建立了瞬态能量分布理论,可以很好地预测不同边界条件和燃料负荷下隔间火灾的 HRR。
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来源期刊
Fire Safety Journal
Fire Safety Journal 工程技术-材料科学:综合
CiteScore
5.70
自引率
9.70%
发文量
153
审稿时长
60 days
期刊介绍: Fire Safety Journal is the leading publication dealing with all aspects of fire safety engineering. Its scope is purposefully wide, as it is deemed important to encourage papers from all sources within this multidisciplinary subject, thus providing a forum for its further development as a distinct engineering discipline. This is an essential step towards gaining a status equal to that enjoyed by the other engineering disciplines.
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