Aerosolized Bacteriophage MS2 Inactivation by Microdroplets of Ozone Solution at Two Different Relative Humidity Levels

The latest outbreaks of COVID-19 and other airborne diseases have focused attention on the importance of ensuring safe spaces and reduced exposure to airborne pathogens. This study proposes a new methodology to inactivate airborne pathogens using ozone solution microdroplets. Ozone solution microdroplets and microdroplets containing the viral indicator bacteriophage MS2 (ATCC 15,597-B1) were introduced into a contact chamber at two relative humidity (RH) levels: below 50% (20-45%) and above 50% (50-80%). Both microdroplet streams made contact and were then collected using a gelatin filter, which was processed through the double agar layer (DAL) technique to assess their effectiveness. For an RH level below 50%, an inactivation of 4.0-Log was achieved by applying a C<middle dot>t of 0.286 min<middle dot>mg<middle dot>L-1 and an inactivation rate constant of 14.83 L<middle dot>mg-1<middle dot>min-1 (std. dev. of 0.374). For an RH level above 50%, inactivation of 4.3-Log was achieved by applying a C<middle dot>t of 0.180 min<middle dot>mg<middle dot>L-1 and inactivation rate constant of 23.904 L<middle dot>mg-1<middle dot>min-1 (std. dev. of 0.679). Also, it was found that there is no statistically significant difference between applying the disinfection process at RH above 50% or below 50%. These results show that the ozone solution microdroplets effectively inactivate the bacteriophage MS2 microdroplets, regardless of ambient RH.