Enhancing Fire Safety: Real-Scale Experimental Analysis of External Thermal Insulation Composite System Façades’ Behavior in Fire

Author:

Bode Florin1ORCID,Simion Adrian2,Anghel Ion3ORCID,Sandu Mihnea4,Banyai Daniel1

Affiliation:

1. Mechanical Engineering Department, Technical University of Cluj-Napoca, 400641 Cluj-Napoca, Romania

2. National Institute for Research-Development in Construction, Urbanism and Sustainable Territorial Development URBAN-INCERC, 021652 Bucharest, Romania

3. Fire Officers Faculty, Police Academy “Alexandru Ioan Cuza” Bucharest, 022451 Bucharest, Romania

4. CAMBI Research Center, Technical University of Civil Engineering Bucharest, 021404 Bucharest, Romania

Abstract

In the unfortunate event of a fire, within the context of the evolution of façade fires, with a specific focus on the utilization of polystyrene thermal insulation (external thermal insulation composite system façades—ETICS façades), this study delves into the investigation of fires ignited by containers containing plastic bottles. Through an examination of the fluctuating temperatures within the affected room and its adjacent areas, as well as an assessment of the fire’s impact on polystyrene thermal insulation, this paper underscores the significance of incorporating non-combustible barriers into the building’s thermal insulation system. The tests conducted revealed that the temperature inside the room reached a maximum of 1100 °C, subsequently decreasing to 800 °C at a height of 2.5 m and approximately 400 °C at a height of 5 m. For this research, two 1100-L containers of household waste were employed, each weighing 45.5 kg and possessing a gross calorific value of 46.97 MJ/kg, with 10.7 kg of PET bottles inside, characterized by a higher calorific value of 23.90 MJ/kg as the source of the fire. Heat release rate highest values were obtained between 11 and 17 min, with a maximum value of 4919 kW. Thus, even in the absence of specific legislation, this study emphasizes the imperative need to establish safety distances for the storage of household waste away from the building’s façade to mitigate the risk of fire propagation, particularly in relation to materials such as polystyrene thermal insulation. Furthermore, in certain situations, extensive fire experiments on a grand scale, like the one undertaken in this research, hold a crucial position in confirming numerical findings for global researchers. This process assures the reliability and real-world usefulness of fire safety studies through the experimental outcomes presented in this investigation.

Funder

UEFISCDI

Publisher

MDPI AG

Subject

Earth and Planetary Sciences (miscellaneous),Safety Research,Environmental Science (miscellaneous),Safety, Risk, Reliability and Quality,Building and Construction,Forestry

Reference52 articles.

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2. Bode, F., Sandu, M., Năstase, I., and Calotă, R. (2021). IOP Conference Series: Earth and Environmental Science, IOP Publishing.

3. (2020). Fire Performance of External Cladding Systems—Test Method for Non-Loadbearing External Cladding Systems Fixed to, And Supported by, a Masonry Substrate. Standard No. BS 8414-1:2020-TC.

4. (2020). Fire Performance of External Cladding Systems—Test Method for Non-Loadbearing External Cladding Systems Fixed to, and Supported by, a Structural Steel Frame. Standard No. BS 8414-2:2020-TC.

5. (2016). Règlement Sécurité Incendie ERP Instruction. Standard No. IT 249.

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