The Elimination of the Return line from the HVAC systems due to COVID-19
Abdullah Abbas Kendoush
Dept. of Nuclear Engineering Technology, Augusta Technical College, Augusta, GA 30906, USA
*Corresponding author: Abdullah Abbas Kendoush, Dept. of Nuclear Engineering Technology, Augusta Technical College, Augusta, GA 30906, USA
Received: 01 May 2025; Accepted: 08 May 2025; Published: 09 May 2025
Article Information
Citation: Abdullah Abbas Kendoush. The Elimination of the Return line from the HVAC systems due to COVID-19. Archives of Microbiology and Immunology. 9 (2025): 163-164.
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Due to the spread of the deadly COVID-19 virus in the US and around the world, the authors propose the elimination of the return line from the HVAC (Heating, Ventilation, and Air conditioning) systems [1], simply by closing the return air damper (RAD) shown Figure 1 that represents a single zone HVAC system. The idea of closing the RAD may be applied to other Design systems such as variable air volume, terminal air reheat, dual duct flow, . . .etc.
Keywords
COVID-19, return air damper (RAD), HVAC
Article Details
Case Presentation
Due to the spread of the deadly COVID-19 virus in the US and around the world, the authors propose the elimination of the return line from the HVAC (Heating, Ventilation, and Air conditioning) systems [1], simply by closing the return air damper (RAD) shown Figure 1 that represents a single zone HVAC system. The idea of closing the RAD may be applied to other Design systems such as variable air volume, terminal air reheat, dual duct flow, . . .etc.
It should be noted, that the presence of filters in the HVAC systems, is not capable of preventing the transfer of the COVID-19 virus through theses filters. Employing efficient filters like MERV 13 that filter 0.3-micron size virus [2] would not be sufficient as the size of the COVID virus is 0.11 micron [3] The elimination of the return line may cause pressurization inside the building, but there are technical solutions as how to overcome the pressurization.
Certainly, there will be technical difficulties in closing the RAD like over pressurization or less comfortable temperature conditions, but these could be managed.
It should be noted, that the return line is nonexistent in the HVAC systems employed in the nuclear buildings, to avoid the spread of radioactive particles throughout the nuclear facility.
Figure 1: Schematic of a single zone HVAC system. (Courtesy of General Physics Strategies, https://www.gpstrategies.com)
References
- McQuiston, F.C., Parker, J.D., and Spitler, D. “Heating, Ventilating and Air Conditioning Analysis and Design” 6th, Wiley (2005).
- Boston University Report, Website:http://www.bu.edu/cpo/files/2020/07/BU-HVAC-Guidance-7-28-20.pdf
- Rosaler, R.C. “ HVAC Handbook” McGraw-Hill (2004): 22.8.
Impact Factor: * 3.5
Acceptance Rate: 71.36% 
Time to first decision: 10.4 days 
Time from article received to acceptance: 2-3 weeks 
