TY - JOUR
T1 - INDOOR ENVIRONMENTAL QUALITY IN PRESCHOOL BUILDINGS IN AN ANDEAN CITY IN ECUADOR
AU - PARRA ULLAURI, ANDREA MARCELA
PY - 2024/2/22
Y1 - 2024/2/22
N2 - Indoor environmental quality has been associated with the health and wellbeing of
building occupants; nevertheless, there is limited evidence in this regard for Latin
American schools. This research aimed to characterize indoor environmental quality
in public and private preschools in an Andean city in Ecuador. Data collection com_x0002_prised onsite monitoring for the thermal-humidity microclimate of 90 classrooms
in 30 preschools in Cuenca-Ecuador (March-August 2018). Infrared thermography
and direct observation were applied to determine dampness. Classrooms seemed to
be inadequate thermal-humidity microclimates; only a few maintained a comfortable
temperature (6%) and relative humidity (11%) throughout the shift. When compar_x0002_ing public and private schools, in private schools, temperatures below the comfort
range (61.3% in private schools vs 31.4% in public schools, p<0.001) and relative
humidity measures above the comfort range were more frequent (74.3% in private
schools vs. 58.6% in public schools, p<0.001). Hollow blocks were the primary con_x0002_struction material in private and public schools. Sixty-four per cent of private schools
operated in adaptive, reused buildings, vs 19% in public schools (p<0.05). Infrared
thermography confirmed dampness in 26% (n=23) of the classrooms in the covering
structures indoors (15% in public vs 33% in private schools, p<0.05). This research
reveals the urgent need to develop specific regulations and control mechanisms for
building sustainable and healthy environments for preschools in Ecuador
AB - Indoor environmental quality has been associated with the health and wellbeing of
building occupants; nevertheless, there is limited evidence in this regard for Latin
American schools. This research aimed to characterize indoor environmental quality
in public and private preschools in an Andean city in Ecuador. Data collection com_x0002_prised onsite monitoring for the thermal-humidity microclimate of 90 classrooms
in 30 preschools in Cuenca-Ecuador (March-August 2018). Infrared thermography
and direct observation were applied to determine dampness. Classrooms seemed to
be inadequate thermal-humidity microclimates; only a few maintained a comfortable
temperature (6%) and relative humidity (11%) throughout the shift. When compar_x0002_ing public and private schools, in private schools, temperatures below the comfort
range (61.3% in private schools vs 31.4% in public schools, p<0.001) and relative
humidity measures above the comfort range were more frequent (74.3% in private
schools vs. 58.6% in public schools, p<0.001). Hollow blocks were the primary con_x0002_struction material in private and public schools. Sixty-four per cent of private schools
operated in adaptive, reused buildings, vs 19% in public schools (p<0.05). Infrared
thermography confirmed dampness in 26% (n=23) of the classrooms in the covering
structures indoors (15% in public vs 33% in private schools, p<0.05). This research
reveals the urgent need to develop specific regulations and control mechanisms for
building sustainable and healthy environments for preschools in Ecuador
UR - https://meridian.allenpress.com/jgb/article/19/1/177/499131/Indoor-Environmental-Quality-In-Preschool
M3 - Artículo
SN - 1552-6100
JO - Journal of Green Building
JF - Journal of Green Building
ER -