Construction parameters that affect the air leaks of the envelope in dwellings in Madrid

IF 2.2 Q2 CONSTRUCTION & BUILDING TECHNOLOGY
Roberto Alonso González-Lezcano, Gastón Sanglier Contreras, Carlos Miguel Iglesias Sanz, Rocío Sancho Alambillaga, Eduardo José López Fernández
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Abstract

In buildings, ventilation, or rather, a lack of airtightness facilitates air leaks, from the outside to the inside and vice versa , and is not controlled. Cold air enters through the enclosure, and warm air is lost to the outdoors, due to the poor hermeticity of the facades, roofs, carpentry, ducts, etc. In order to quantify the airtightness in multi-family dwellings in Madrid, 151 blower door tests have been carried out in multi-family dwellings built in different periods whose execution has been regulated by the UNE-EN 13829 standard. Through its quantification by an n 50 value, the average values of 5.8 renovations per hour have been obtained in addition to detecting the main points where air infiltration occurs. The constant improvement in the transmittance of construction elements has indicated that the entry of outside air has a progressively greater relevance to the total energy consumed by the residential sector while facilitating the uncontrolled movement of air through the building envelope. This not only implies higher energy consumption but also generates a series of problems that affect the health of the occupants, such as a lack of thermal comfort, entry of pollutants and odours, noise, inadequate operation of ventilation systems, and less protection against fire.
影响马德里住宅围护结构空气泄漏的施工参数
在建筑物中,通风,或者更确切地说,缺乏气密性会导致空气从外部泄漏到内部,反之亦然,并且不受控制。由于外立面、屋顶、木工、管道等的密封性差,冷空气通过围护结构进入,热空气流失到室外。为了量化马德里多户住宅的气密性,在不同时期建造的多户住宅中进行了151次风机门测试,这些测试的执行已由UNE-EN 13829标准规定。通过n50值的量化,除了检测空气渗透的主要点外,还得到了每小时5.8次翻新的平均值。建筑构件透光率的不断提高表明,外部空气的进入与住宅部门消耗的总能源有越来越大的关系,同时促进了空气通过建筑围护结构的不受控制的流动。这不仅意味着更高的能源消耗,而且还会产生一系列影响居住者健康的问题,例如缺乏热舒适性,污染物和气味的进入,噪音,通风系统的不适当操作以及防火保护不足。
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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来源期刊
Frontiers in Built Environment
Frontiers in Built Environment Social Sciences-Urban Studies
CiteScore
4.80
自引率
6.70%
发文量
266
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