TY - JOUR
T1 - Energy recovery ventilators to combat indoor airborne disease transmission
T2 - A sustainable approach
AU - Annadurai, Gurubalan
AU - Mathews, Ashwin Joseph
AU - Krishnan, Easwaran N.
AU - Gollamudi, Siddhartha
AU - Simonson, Carey J.
N1 - Publisher Copyright:
© Copyright © 2024 ASHRAE.
PY - 2024
Y1 - 2024
N2 - Ventilation plays a crucial role in preventing indoor airborne disease transmission. Nevertheless, ventilation increases the energy consumption of HVAC systems. Therefore, energy efficiency measures or alternative methods must be adopted to reduce the energy demand of HVAC systems, which is necessary to achieve sustainability in the building sector. This study proposes a method of utilizing an energy recovery ventilator (ERV) to provide supplementary ventilation to reduce airborne disease transmission. The proposed method is tested for an office building with one source room (with an infected occupant) and two connected rooms (no infection source). The contributions of the present study are (i) the development and verification of a new supplement ventilation method using an ERV to reduce the probability of infection from airborne pathogens and (ii) providing the economic and environmental benefits of the proposed method to promote its adaption by the building managers/HVAC engineers. The results of the present study show that the proposed method can reduce the probability of infection by 10 to 40% and demonstrate that utilizing an ERV is a sustainable and economical method to improve ventilation to reduce indoor airborne disease transmission.
AB - Ventilation plays a crucial role in preventing indoor airborne disease transmission. Nevertheless, ventilation increases the energy consumption of HVAC systems. Therefore, energy efficiency measures or alternative methods must be adopted to reduce the energy demand of HVAC systems, which is necessary to achieve sustainability in the building sector. This study proposes a method of utilizing an energy recovery ventilator (ERV) to provide supplementary ventilation to reduce airborne disease transmission. The proposed method is tested for an office building with one source room (with an infected occupant) and two connected rooms (no infection source). The contributions of the present study are (i) the development and verification of a new supplement ventilation method using an ERV to reduce the probability of infection from airborne pathogens and (ii) providing the economic and environmental benefits of the proposed method to promote its adaption by the building managers/HVAC engineers. The results of the present study show that the proposed method can reduce the probability of infection by 10 to 40% and demonstrate that utilizing an ERV is a sustainable and economical method to improve ventilation to reduce indoor airborne disease transmission.
UR - http://www.scopus.com/inward/record.url?scp=85204032804&partnerID=8YFLogxK
U2 - 10.1080/23744731.2024.2399468
DO - 10.1080/23744731.2024.2399468
M3 - Article
AN - SCOPUS:85204032804
SN - 2374-4731
JO - Science and Technology for the Built Environment
JF - Science and Technology for the Built Environment
ER -