Designing out the risk of infections via aerosols by updating restrictions on indoor environments depending on local incidence rates and the dominant SARS-Co V -2 strain

Wallace, Ruth, Rezgui, Yacine ORCID: https://orcid.org/0000-0002-5711-8400 and Ghoroghi, Ali 2022. Designing out the risk of infections via aerosols by updating restrictions on indoor environments depending on local incidence rates and the dominant SARS-Co V -2 strain. Presented at: 2022 IEEE 28th International Conference on Engineering, Technology and Innovation (ICE/ITMC) & 31st International Association For Management of Technology (IAMOT) Joint Conference, Nancy, France, 19-23 June 2022. Proceedings of 28th International Conference on Engineering, Technology and Innovation (ICE/ITMC) & 31st International Association For Management of Technology (IAMOT) Joint Conference. IEEE, pp. 1-9. 10.1109/ICE/ITMC-IAMOT55089.2022.10033279

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Abstract

The paper contributes to existing research on transmission of infectious diseases in indoor environments, with a focus on the SARS-Co V -2 virus, considered in an environment with a potentially high infectious risk, i.e. a university building. A multi-functional zone with variable occupancy schedules involving both students and staff is used as a case study. A computational fluid dynamics (CFD) model is developed to simulate and analyze three scenarios involving mixed, mechanical, and natural ventilation. Based on the physical and operational configuration of the selected zone, initial results show that mechanical ventilation involves areas of stagnant air (i.e. air velocity is less than 0.1m/s), while reliance on natural ventilation leads to increase in C02 levels. Hence, a mixed mode (natural and mechanical) ventilation is suggested. Then, based on the probability of the presence of (an) infected individual(s), considering the local COVID-19 incidence rate, initial estimates suggest that the Delta variant requires the air change rate (ACH) to be increased more than 1000 times, when compared to the original strain. The paper thus establishes a correlation between the prevalence of a given SARS-Co V -2 variant with the required air change rate, emphasizing the need to factor in not only the presence of infected individual(s), based on the local incidence rate, but also the viral charge of the dominant SARS-Co V -2 variant. The paper argues the need for a better controlled and optimized ventilation to ensure safer indoor environments.

Item Type:	Conference or Workshop Item (Paper)
Date Type:	Publication
Status:	Published
Schools:	Engineering
Publisher:	IEEE
ISBN:	97816654-88181
Funders:	EPSRC
Last Modified:	16 Mar 2023 10:44
URI:	https://orca.cardiff.ac.uk/id/eprint/157738

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