Author: Zivelonghi, Alessandro Lai Massimo
Title: Mitigating aerosol infection risk in school buildings: The role of natural ventilation, volume, occupancy and CO2 monitoring Cord-id: q57cikc4 Document date: 2021_1_1
ID: q57cikc4
Snippet: Issues linked to aerosol physics within school buildings and related infection risk still lack a proper recognition in school safety regulations. Limited spaces and limited available window-surfaces require to precisely investigate the seasonal airing factors and the occupancy/volume ratios in each classroom in order to assess the specific risk levels from viral loads of potentially infective sources. Moreover, most schools are still not provided with mechanical HVAC systems nor with air quality
Document: Issues linked to aerosol physics within school buildings and related infection risk still lack a proper recognition in school safety regulations. Limited spaces and limited available window-surfaces require to precisely investigate the seasonal airing factors and the occupancy/volume ratios in each classroom in order to assess the specific risk levels from viral loads of potentially infective sources. Moreover, most schools are still not provided with mechanical HVAC systems nor with air quality sensors. Fundamental questions are therefore: how the specific classroom volume and the specific airing cycle affects the long-range contagion risk in a given classroom? is linear social distancing the right way to assess a volumetric risk problem? We present here the results of an extended quantitative analysis based on the GN-Riley model applied to a real classroom scenario. The study illustrates, analyses and discusses the effectiveness of single and combined mitigation interventions, such as limiting class size, equipping teachers with microphones, increasing classroom volumes, and equipping classrooms with CO2 sensors. Moreover, we show experimental CO2 concentration data, measured in a real-life scenario, and propose a preliminary scheme for real-time infection risk assessment of SARS-CoV2 from aerosolization.
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