Enhancing Indoor Air Quality and Regulatory Compliance: An In-Depth Comparative Study on Ventilation Strategies and Their Impact on SARS-CoV-2 Transmission Risk

Author:

Abbaspour Atefeh1ORCID,Bahadori-Jahromi Ali1ORCID,Janbey Alan2,Godfrey Paulina B.3ORCID,Amirkhani Shiva4

Affiliation:

1. Department of Civil and Environmental Engineering, School of Computing and Engineering, University of West London, London W5 5RF, UK

2. Research Department, London College, London TW5 9QX, UK

3. Energy and Environment, Engineering Operations EMEA, Hilton, Maple Court, Reeds Crescent, Watford WD24 4QQ, UK

4. Sustainability and Climate Change, WSP, 6 Devonshire Square, London EC2M 4YE, UK

Abstract

Enclosed-space ventilation plays a pivotal role in enhancing indoor air quality (IAQ). Various regulations and guidelines determine minimum fresh air requirements, varying by the application, country, etc. The present study employs real-time indoor CO2 measurements to calculate the actual air change rate (ACH) and models the building’s compliance with Chartered Institution of Building Services Engineers (CIBSE) guidelines to assess its impact on IAQ. The contaminant considered is the SARS-CoV-2 virus with multiple infectors, and the study calculates the virus’s transmission risk under different scenarios. Fresh air is assumed to be provided by mechanical or hybrid ventilation. The results reveal that the current building conditions are unacceptable, showing a significant gap from the recommended guideline rates. Meeting CIBSE recommendations ensures indoor air safety in terms of CO2 concentration. However, in extreme conditions with five infectors, findings show a 14% reduction in mechanical ventilation efficacy. Among the hybrid ventilation scenarios, combining CIBSE rates with natural ventilation, with a 30% door and window opening from the class outset, proves most effective in reducing the virus’s transmission risk, with a 58–70% reduction from the building’s current condition. Furthermore, implementing supplementary measures like air cleaners resulted in an additional 28–50% reduction in transmission risk.

Publisher

MDPI AG

Subject

Management, Monitoring, Policy and Law,Renewable Energy, Sustainability and the Environment,Geography, Planning and Development,Building and Construction

Reference40 articles.

1. (2023, November 10). WHO Household Air Pollution and Health. Available online: https://www.who.int/news-room/fact-sheets/detail/household-air-pollution-and-health.

2. EPA (2011). Environmental Hazards in the Home.

3. The National Human Activity Pattern Survey (NHAPS): A Resource for Assessing Exposure to Environmental Pollutants;Klepeis;J. Expo. Sci. Environ. Epidemiol.,2001

4. School Air Quality Related to Dry Cough, Rhinitis and Nasal Patency in Children;Simoni;Eur. Respir. J.,2010

5. A Long-Term Multi-Parametric Monitoring Study: Indoor Air Quality (IAQ) and the Sources of the Pollutants, Prevalence of Sick Building Syndrome (SBS) Symptoms, and Respiratory Health Indicators;Mentese;Atmos. Pollut. Res.,2020

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