Modeling the vertical transmission of bioaerosols in residential building drainage systems

Modeling the vertical transmission of bioaerosols in residential building drainage systems

The vertical transmission of bioaerosols in building drainage systems is an understudied route of disease spread. This research examines how the position of drainage floors, flush volume, pipe type, and building story number affect the dynamics and reach of bioaerosols in such systems. Our findings...

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Bibliographic Details
Published in:Developments in the built environment Vol. 19; p. 100500
Main Authors: Liu, Ziyu, Xi, Jinying
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-10-2024
Elsevier
Subjects:
Bioaerosols
Building drainage systems
CFD
Vertical transmission
CFD
Vertical transmission
Bioaerosols
Building drainage systems
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Summary:The vertical transmission of bioaerosols in building drainage systems is an understudied route of disease spread. This research examines how the position of drainage floors, flush volume, pipe type, and building story number affect the dynamics and reach of bioaerosols in such systems. Our findings show that drainage points positioned lower in a building amplify the number of the affected floors above, with recorded pressure differences at various drainage points ranging from 900 to 3200 Pa, depending on flush volume and floor position. The transition to a double pipe system significantly reduced pressure differences (to as low as 330 Pa in vent pipes), thereby diluting bioaerosol concentrations but increasing their dispersion across more floors. Building story number further influenced bioaerosol spread, with higher buildings exhibiting negligible pressure differences across stories (1400–2300 Pa) but a pronounced increase in affected floors above the drainage site. •Position of position of drainage floor significantly affects vertical bioaerosol distribution.•After drainage, upper floors face greater risk than lower ones.•Double pipe lowers pressure differences, widening bioaerosol spread across floors.
ISSN:2666-1659
2666-1659
DOI:10.1016/j.dibe.2024.100500