Publication date: Jun 06, 2025

Aerosol transmission of infectious diseases is of particular concern in hospital and care facilities where isolation rooms are limited, leading to capacity crises in the past, such as during the COVID-19 pandemic. This study introduces a canopy, i. e., a novel vertical airflow system with ceramic wall flow filters designed to reduce the spread of airborne pathogens in hospital environments. The system captures exhaled air above the patient, filters it via ceramic filters, and releases clean air beneath the bed. Laboratory tests were conducted in controlled environments with small (15 m) and large (36 m) rooms. The filtration efficiency was evaluated using nebulized salt particles, nebulized MS2 bacteriophages, and bacteria exhaled by an adult person sleeping in the bed. The performance of the system was further tested in conjunction with hospital separation curtains to assess combined effectiveness. Filtration efficiencies reached up to 95% for nebulized salt particles, 87% for nebulized MS2 bacteriophages, and 92% for bacteria exhaled by an adult person sleeping in the bed. Hospital separation curtains alone provided a modest reduction in aerosol spread; however, their performance was enhanced when used alongside the vertical airflow system. These results confirm the canopy system’s potential to reduce nosocomial infections by reducing aerosol concentrations. The innovative combination of vertical airflow and robust filtration technology offers a practical solution for improving air quality and protecting patients and healthcare workers in hospitals.

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