外保温覆层系统火灾危险性的数值研究

Laurențiu Munteanu, M. Suvar, F. Manea, L. Tuhuț, Andrada Denisa Matei
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引用次数: 0

摘要

能源价格的大幅上涨不仅导致当今社会对节能政策的重新考虑,而且鼓励建筑师、建筑商和建筑业主使用隔热和外墙装饰系统。外墙的隔热设计是一个建设性的决定,其中具有隔热性能的层在粘合剂和/或机械手段的帮助下固定在墙壁的承重侧,然后应用加固和饰面层。这些操作的作用是确保特定于墙壁结构的热指标的规范值,它们对环境影响的保护,确保建筑物内部隔间的最佳小气候,以及为立面和结构元素提供有吸引力的美学外观。湿式外覆层或使用聚苯乙烯(ETICS)的复合隔热系统为满足上述目标提供了一个完整且非常具有成本效益的解决方案。然而,科学文献中的多个火灾例子表明,火灾蔓延到建筑物的隔热和饰面系统的支撑上,表明它们的特殊危险。这种火灾风险与所选择的包层结构解决方案和所使用的保温材料类型直接相关,也受到不符合或违反材料和建筑物消防安全的具体技术法规或规则的影响。通过应用基于cfd的计算火场模型,本研究考虑了带有外覆层的定制7层建筑的相关风险。目的是观察火灾在建筑物的一侧蔓延,使用ETICS外部保温和整理系统进行隔热。采用两种具有不同耐火性能的膨胀聚苯乙烯(EPS)作为绝缘材料。研究结果表明,在消防安全方面选择正确的技术解决方案的重要性,以及采用限制火灾垂直蔓延的方法的必要性。
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NUMERICAL STUDY ON FIRE HAZARD ASSOCIATED TO EXTERNAL THERMAL INSULATION CLADDING SYSTEMS
The significant increase in the price of energy resources leads today's society not only to a reconsideration of energy conservation policies but also to the encouragement of architects, builders, and building owners to use thermal insulation and exterior wall finishing systems. The design of thermal insulation for facades is a constructive decision, in which the layer with thermal insulation properties is fixed on the load-bearing side of the walls, with the help of adhesives and/or by mechanical means, followed by the application of a reinforcement and finishing layer. These operations have the role of ensuring the normative values of the thermal indicators specific to the wall structures, their protection against environmental influences, ensuring the optimal microclimate of the interior compartments of the building as well as providing an attractive, aesthetic appearance to the facades and structural elements. Wet exterior cladding or composite thermal insulation systems using polystyrene (ETICS) provide a complete and very cost-effective solution to meet the above-described goals. However, multiple examples of fires in the scientific literature, with the spread of fire on the support of thermal insulation and finishing systems of buildings, indicate their particular danger. This fire risk is directly related to the chosen structural solution for cladding and the type of thermal insulation material used, being also influenced by noncompliance or violation of specific technical regulations or rules on the fire safety of materials and buildings. Through the application of CFD-based computational fire field models, the associated risks for a custom 7-storey building with external cladding were considered in this study. The aim was to observe the fire spread on one side of the building, insulated using the ETICS exterior insulation and finishing system. As an insulating material, two types of expanded polystyrene (EPS) were used, with different fire resistance properties. The study results demonstrate the importance of choosing the right technical solution in terms of fire safety and the need to apply methods to limit the vertical spread of fire.
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