Evaluation of environmental and indoor air quality in new and renovated social housing units in Chile - CEDEUS

04 Mar Evaluation of environmental and indoor air quality in new and renovated social housing units in Chile

Publicado el 15:23h en PC_Ciudades Climático Resilientes, Publicaciones Científicas por Paulina Vejar

Título	Evaluation of environmental and indoor air quality in new and renovated social housing units in Chile
Autor(es)	Gilles Flamant, Waldo Bustamante, Arnold Janssens, Jelle Laverge, Héctor Jorquera
Proyecto	Ciudades Climático-Resilientes
Año de publicación	2025
Revista	Building and Environment
Palabras claves	Indoor air quality, Social housing, Ventilation, Formaldehyde, Fine particulate matter
Resumen	This study aims to evaluate a priority set of indoor environmental and air quality conditions in 22 social housing units as part of government programs for new housing construction and energy retrofit of existing housing. A comprehensive monitoring program was conducted in winter in two Chilean cities, Santiago and Coyhaique, including measurements of temperature, relative humidity, CO₂, formaldehyde and fine particulate matter (PM_2.5). The results showed a significant portion of the time outside the thermal comfort zone and excessive CO₂ concentration and air humidity in the bedrooms, predominantly during the night hours. The decentralized ventilation system installed in most of the houses was unable to provide the required airflow rates, especially in the bedrooms. The formaldehyde concentration in the living rooms almost never exceeded the short-term exposure limit value of 100 µg/m³. The 24-h average indoor PM_2.5 concentrations were above the WHO guideline of 15 µg/m³ for 77 % of the time in Santiago and 86 % in Coyhaique. Indoor PM_2.5 concentrations were dominated by outdoor contributions. The chronic harm from exposure to the measured indoor formaldehyde and PM_2.5 concentrations was estimated to be 1428 and 1982 DALYs/10⁵person/year in Santiago and Coyhaique, respectively. These values are twice to three times higher than those observed in California homes that comply with the standard ASHRAE 62.2. The results demonstrate the need for enhanced thermal standards in Chile and better ventilation solutions, capable of removing indoor pollutants and humidity generated indoors and reducing indoor PM_2.5 concentrations particularly in highly polluted cities.
Doi	https://doi.org/10.1016/j.buildenv.2025.112741
Autor(es) de correspondencia	Gilles Flamant, gilles.flamant@uc.cl