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Main Authors: Lou, Ruixi, van Mooy, Milo, Tarditti, Gabriel A, Monico, Rodolfo Ostilla, Mathai, Varghese
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2507.09065
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author Lou, Ruixi
van Mooy, Milo
Tarditti, Gabriel A
Monico, Rodolfo Ostilla
Mathai, Varghese
author_facet Lou, Ruixi
van Mooy, Milo
Tarditti, Gabriel A
Monico, Rodolfo Ostilla
Mathai, Varghese
contents Waiting in a line (or a queue) is an important, often unavoidable social interaction that occurs frequently in public spaces. Despite its wide prevalence and rich parametric variability, few studies have addressed the risks of airborne transmission while waiting in a line. Here we use a combination of scaled down laboratory experiments and direct numerical simulations (DNS) to assess the flow patterns and infection risks in a simplified waiting line setting. We observed the presence of fluid dynamical countercurrents, due to the competing effects of line kinematics and thermal gradients, which can either heighten or suppress the risks of transmission. Depending on the walking speed, an intermediate ambient temperature range can potentially heighten the infection risks by allowing the breath plume to linger in the air for extended durations; however, colder and warmer ambients both suppress the spread. The current guideline of increasing physical separation has limited impact on reducing transmission in the waiting line setting. The present work highlights the need for updated transmission mitigation guidelines that go beyond the simplicity of the six feet rule in social interactions where physical separation, duration of interaction, and periodicity of movements are factors.
format Preprint
id arxiv_https___arxiv_org_abs_2507_09065
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Fluid Dynamical Pathways of Airborne Transmission while Waiting in a Line
Lou, Ruixi
van Mooy, Milo
Tarditti, Gabriel A
Monico, Rodolfo Ostilla
Mathai, Varghese
Fluid Dynamics
Waiting in a line (or a queue) is an important, often unavoidable social interaction that occurs frequently in public spaces. Despite its wide prevalence and rich parametric variability, few studies have addressed the risks of airborne transmission while waiting in a line. Here we use a combination of scaled down laboratory experiments and direct numerical simulations (DNS) to assess the flow patterns and infection risks in a simplified waiting line setting. We observed the presence of fluid dynamical countercurrents, due to the competing effects of line kinematics and thermal gradients, which can either heighten or suppress the risks of transmission. Depending on the walking speed, an intermediate ambient temperature range can potentially heighten the infection risks by allowing the breath plume to linger in the air for extended durations; however, colder and warmer ambients both suppress the spread. The current guideline of increasing physical separation has limited impact on reducing transmission in the waiting line setting. The present work highlights the need for updated transmission mitigation guidelines that go beyond the simplicity of the six feet rule in social interactions where physical separation, duration of interaction, and periodicity of movements are factors.
title Fluid Dynamical Pathways of Airborne Transmission while Waiting in a Line
topic Fluid Dynamics
url https://arxiv.org/abs/2507.09065