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Analysis of Efficacy of UVGI Inactivation of Airborne Organisms Using Eulerian and Lagrangian Approaches

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Conference Proceeding by ASHRAE, 2004

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Description

Ultraviolet germicidal irradiation (UVGI) is increasingly used in health care facilities to kill airborne bacteria and control the spread of airborne infection among occupants. The most widely used form of UVGI is the passive upper-room lamps that generate a horizontal layer irradiance field above the occupied zone. In this study, the efficacy of killing airborne bacteria by upper-room UVGI in a test room is investigated by using computational fluid dynamics (CFD). The killing of airborne bacteria is dependant on the dose the bacteria receive and their susceptibility. In order to calculate the dose, the trajectory of each of the bacteria needs to be predicted. The common practice in CFD is that the flow field is solved using an Eulerian reference system and the particle trajectory is calculated using a Lagrangian reference system from which the particle dose is derived. This approach gives very accurate and detailed information on the history and behavior of each organism. However, in typical experimental procedures, the samples are usually collected when the numbers of the bacteria killed, ventilated, or remaining viable in the room reach steady state and the bacteria killing mechanism is considered as a group activity. This makes comparison of the CFD prediction with experimental data difficult—the Lagrangian reference system is not suitable when the steady-state information regarding the overall behavior of the bacteria in a room at any moment is of interest. In this study, a new approach is proposed to estimate the bacteria inactivation rate in the Eulerian system. For each room condition, both the Lagrangian and Eulerian approaches are utilized to evaluate the UVGI efficacy. The predicted results with the Eulerian approach are compared with available experimental measurements.

Paper from IAQ 2004 — Critical Operations: Supporting the Healing Environment Through IAQ Performance Standards

Units: SI

Citation: IAQ Conference: IAQ 2004

Product Details

Published:
2004
Number of Pages:
6
File Size:
1 file , 550 KB
Product Code(s):
D-22544