New publication: “Aerodynamic Size-Dependent Collection and Inactivation of Virus-Laden Aerosol Particles in an Electrostatic Precipitator”

By: Lan Wang, José Morán, Bernard A. Olson, My Yang, Christopher J. Hogan Jr., Montserrat Torremorell

This is a publication resulting from a collaboration with the Department of Mechanical Engineering (Prof. Chris Hogan’s group) and the Department of Veterinary Medicine (Prof. Montserrat Torremorell’s group) of the University of Minnesota, USA. Our work has been published in Environmental Science & Technology.

Abstract

Electrostatic precipitators (ESPs) may enable high particle collection efficiency with minimal pressure drop in HVAC systems. However, studies of pathogen collection and inactivation in ESPs at medium to higher flow rates are limited. Here, a single-stage, wire-plate ESP operated at flow rates of 51 and 85 m3 h–1 was used to study the removal of virus-laden aerosol particles for three different airborne viruses: (1) bovine coronavirus (BCoV), (2) influenza A virus (IAV), and (3) porcine reproductive and respiratory virus (PRRSV). Size-resolved measurements of collection efficiency were obtained using Andersen cascade impactors (ACI) sampling upstream and downstream of the ESP. All measurements were analyzed based on three distinctive but complementary methods: (1) fluorimetry to assess physical collection, (2) RT-qPCR to assess viral RNA concentrations and (3) virus titration to assess virus viability. In general, log reductions by virus titration were highest followed by those from RT-qPCR, and last fluorimetry, suggesting that a portion of virus may be potentially inactivated in flight in the ESP. An effective migration (deposition) velocity ranging from 3.10 to 10.05 cm s–1 was also determined using the spatially resolved measurements of virus collection on the ESP plates.

Read the paper: https://doi.org/10.1021/acs.est.4c03820