Abstract
Since students and teachers spend much of their time in educational buildings, it is critical to provide good levels of indoor environmental quality (IEQ). The current COVID-19 pandemic has shown that maintaining a good indoor air quality level is an effective measure to control the transmission of the SARS-CoV-2 virus. This study used sensors to monitor key IEQ factors and assess several natural ventilation scenarios in a classroom of the University of Granada. Subsequently, the IEQ factors (temperature, relative humidity, CO2 concentration, acoustic environment, and air velocity) were evaluated for the selected ventilation scenarios in the occupied classroom, and the field monitoring was carried out in two different assessment periods, winter and summer. The obtained results show that the CO2 concentration levels were well below the recommended limits. However, the maintenance of the recommended thermal and acoustic IEQ factors was significantly affected by the natural ventilation strategies (temperature and relative humidity values were very close to the outside values, and the background sound pressure level was over 35 dBA during the entire assessment). The proper measurements and careful selection of the appropriate ventilation scenarios become of utmost importance to ensure that the ventilation rates required by the health authorities are achieved.
Highlights
Nowadays, the global energy scenario shows that buildings consume more than twice as much energy as they did in 1970 and account for 40% of the energy consumed at present [1,2]
The results obtained the three cross-natural ventilation scenarios are shown in Figure and Table
indoor air quality (IAQ) is an essential factor in the control of the transmission of SARS-CoV-2 within indoor spaces
Summary
The global energy scenario shows that buildings consume more than twice as much energy as they did in 1970 and account for 40% of the energy consumed at present [1,2]. The increase in global energy demand, along with the climate crisis, has become a major public concern. This situation has led to a focus on research and policy efforts to ensure environmental and energy efficiency [3], as well as wellbeing and health conditions [4]. If the building is not able to maintain adequate indoor thermal conditions to achieve thermal comfort (TC), this results in an increase in energy demand [8]. As public buildings, this characteristic gives them a major social responsibility. Buildings have to meet the standards required for an indoor environment but it is essential that they ensure the health and comfort of their occupants [6]
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