Monitoring and Assessment of Indoor Environmental Conditions in Educational Building Using Building Information Modelling Methodology
Metadatos
Afficher la notice complèteAuteur
Aguilar Aguilera, Antonio Jesús; De la Hoz Torres, María Luisa; Ruiz Padillo, Diego Pablo; Martínez Aires, María DoloresEditorial
MDPI
Materia
Building information modelling COVID-19 Educational building Indoor environmental quality Sensor monitoring
Date
2022-10-22Referencia bibliográfica
Aguilar, A.J... [et al.]. Monitoring and Assessment of Indoor Environmental Conditions in Educational Building Using Building Information Modelling Methodology. Int. J. Environ. Res. Public Health 2022, 19, 13756. [https://doi.org/10.3390/ijerph192113756]
Patrocinador
Consejo General de la Arquitectura Tecnica (CGATE) (2018); State Research Agency (SRA) of Spain; European Commission PID2019-108761RB-I00Résumé
Managing indoor environmental quality (IEQ) is a challenge in educational buildings in the
wake of the COVID-19 pandemic. Adequate indoor air quality is essential to ensure that indoor spaces
are safe for students and teachers. In fact, poor IEQ can affect academic performance and student
comfort. This study proposes a framework for integrating occupants’ feedback into the building
information modelling (BIM) methodology to assess indoor environmental conditions (thermal,
acoustic and lighting) and the individual airborne virus transmission risk during teaching activities.
The information contained in the parametric 3D BIM model and the algorithmic environment of
Dynamo were used to develop the framework. The IEQ evaluation is based on sensor monitoring
and a daily schedule, so the results show real problems of occupants’ dissatisfaction. The output of
the framework shows in which range the indoor environmental variables were (optimal, acceptable
and unacceptable) and the probability of infection during each lecture class (whether or not 1% is
exceeded). A case study was proposed to illustrate its application and validate it. The outcomes
provide key information to support the decision-making process for managing IEQ and controlling
individual airborne virus transmission risks. Long-term application could provide data that support
the management of ventilation strategies and protocol redesign.