开发一种基于性能的方法,以确定屋顶特征对带有中庭的建筑物消防安全的影响

Pub Date : 2023-12-27 DOI:10.11113/ijbes.v11.n1.1175
Mehmet Akif Yildiz, Figen Beyhan
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引用次数: 0

摘要

技术的发展、社会结构的变化和资源枯竭的威胁改变了建筑物的设计。因此,人们开发出了利用自然通风和采光来提高用户舒适度和降低能耗的设计方法。通过垂直和水平间隙将室外空气和光线分配到空间的设计可以减少机械系统的能源需求,提高居住舒适度。中庭是现代建筑在适当条件下向室内空间分配自然风和光线的首选垂直间隙。 然而,在有中庭的建筑中,由于房间之间的间隙不间断,一旦发生火灾,就会有火势蔓延的风险。因此,有必要在设计初期采用基于性能的消防安全方法来监测应采取的措施,从而确保设计的可操作性。本研究利用计算流体动力学(CFD)模拟技术为中庭建筑的火灾分析制定了设计策略。研究分析了中庭的高度、屋顶类型和坡度特征,以及烟雾和火焰移动的主要因素--烟囱效应。通过对平屋顶、单向坡屋顶、双向坡屋顶、10 度、20 度、30 度屋顶坡度以及一米高的中庭屋顶变量进行数值分析,研究了烟雾扩散和温度控制的影响程度。数值分析使用了具有 CFD 功能的火灾动态模拟器和可将结果可视化的 Smokeview 软件。相关分析用于确定变量对温度的影响。结果表明,平屋顶和增高设计可有效延缓烟雾扩散并增加中庭的烟囱效应,而屋顶坡度对消防安全的影响较弱。
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Developing a Performance-Based Approach to the Effect of Roof Features on Fire Safety in Buildings with Atriums
Developing technology, changing social structures, and the threat of resource depletion have changed the design of buildings. Therefore, design approaches are developed to increase user comfort and reduce energy consumption by utilizing natural ventilation and lighting. The design of the distribution of outdoor air and light into the spaces through vertical and horizontal gaps reduces the energy demand of the mechanical systems and increases occupant comfort. The atrium is the preferred vertical gap in modern buildings for distributing natural air and light to interior spaces under appropriate conditions.  However, in buildings with atrium, there is a risk of fire spreading in the event of a fire due to the uninterrupted gaps between the rooms. It is necessary to ensure the operability of the design by monitoring the measures to be taken in the early stages of design using performance-based fire safety methods. This study develops design strategies for fire analysis in atrium buildings using computational fluid dynamics (CFD) simulation technology. Atrium height, roof type, and slope characteristics are analyzed for the stack effect, which is the main factor in the movement of smoke and flames. As a result of the numerical analyses consisting of flat, unidirectional, and bidirectional sloping roof type, 10, 20, 30-degree roof slope, and one-meter rising atrium roof variables, the effect degrees for smoke dispersal and temperature control are investigated. Fire Dynamic Simulator, which uses CFD capabilities, and Smokeview software, which can visualize the results, were used for the numerical analysis. Correlation analysis was used to determine the effect of variables on temperature. The results showed that flat roofs and designs with increasing height were effective in delaying the spread of smoke and increasing the stack effect in the atrium, while the contribution of roof slope to fire safety was weak.
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