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Use of CFD Modelling to Optimise the Design of Upper-room UVGI Disinfection Systems for Ventilated Rooms

Pathogen Control Engineering Research Group, School of Civil Engineering, University of Leeds, Leeds LS2 9JT, UK, C.J.Noakes{at}leeds.ac.uk

P. A. Sleigh

Pathogen Control Engineering Research Group, School of Civil Engineering, University of Leeds, Leeds LS2 9JT, UK

L. A. Fletcher

Pathogen Control Engineering Research Group, School of Civil Engineering, University of Leeds, Leeds LS2 9JT, UK

C. B. Beggs

School of Engineering, Design and Technology, University of Bradford, Bradford BD7 1DP, UK

The installation of upper-room ultraviolet germicidal irradiation (UVGI) devices in ventilated rooms has the potential to reduce transmission of infections by an airborne route. However, the performance of such devices is dependant on several factors including the location of the lamp and the ventilation airflow in the room. This study uses a CFD model to evaluate the performance of UVGI devices by considering the cumulative UV-C dose received by the bulk room air in a ventilated room. By evaluating the UV dose rather than the resulting micro-organism inactivation the methodology can be used to optimise UVGI systems at the design stage, particularly when the source location of bioaerosol contaminants is not known. The study investigates the relationships between the lamp location, lamp power, ventilation system and room heating in a small, ventilated room. The results show that with ventilation air supplied at low level and extracted at high level the UVGI system performs better than with the air supplied at high level and extracted close to the floor. In addition the results show the presence of a heater in the room is unlikely to have a detrimental effect on performance and may promote mixing to increase the extent of disinfection.

Key Words: CFD • Ultraviolet disinfection • Airborne infection • Ventilation • Modelling

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