Arup Bhattacharya scite author profile

Human activity is known to leave significant effects on indoor airflow patterns. These patterns are carefully designed for many facilities such as cleanrooms, pharmaceutical settings, and healthcare environments, where human‐induced wakes contribute to the transport of contaminants. Therefore, the knowledge about these wakes as it relates to indoor air quality is critical. As a result, a series of experiments were conducted in a controlled chamber to study the three‐dimensional effects of true human walking on airflow. Experiments were designed to capture the effect of human walking under three different flow conditions, and for two different walking schemes. The results show that the effect of walking on the airflow is not negligible and can sustain up to 10 seconds after the moving body has passed. Walking on a straight line creates significant change in the velocity normal to the walking path and vertical to the plane of walking movement. These changes were detectable till 1.0 m away from the walking track. Also, the similarity between airflow patterns of walking once and twice illustrated a promising opportunity of predicting the flow patterns of random walk from a set of base cases.

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The effect of door opening on air-mixing in a positively pressurized room: Implications for operating room air management during the COVID outbreak

Bhattacharya

Ghahramani

Mousavi

2021

Journal of Building Engineering

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Particle dispersion in a cleanroom – effects of pressurization, door opening and traffic flow

Bhattacharya

Metcalf

Nafchi

et al. 2020

Building Research & Information

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Cleanroom air quality: combined effects of ventilation rate and filtration schemes in a laboratory cleanroom

Tak

Bhattacharya

Metcalf

et al. 2023

Building Research & Information

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Event based approach for modeling indoor airflow patterns

Mousavi¹,

Bhattacharya²

2022

Journal of Building Engineering

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