Thermal inactivation of airborne viable Bacillus subtilis spores by short-term exposure in axially heated air flow

“…The experimental facility and test design were described in detail in our earlier paper (Grinshpun et al 2010). The setup was operated inside a class II biosafety cabinet (Model 6TX, Baker Co., Inc., Sanford, ME).…”

“…The above definition assumes that all the viruses were exposed to the same air temperature during the same time interval, which is not the case in the presence of gradients of air temperature and velocity-longitudinally (y) and radially (x) (Figure 1). Unlike the confined thermal systems used for sterilizing food and liquids, a continuously heated air flow system cannot, in principle, maintain a single temperature because of continuous energy transfer (Grinshpun et al 2010;Jung et al 2009b). Consequently, an aerosol particle passing through the chamber is exposed to different temperatures along its trajectory.…”

“…Consequently, an aerosol particle passing through the chamber is exposed to different temperatures along its trajectory. In an axially heated flow, the radial (cross-sectional) gradient of air temperature is relatively high in a close proximity to the heater; it essentially diminishes as the distance to the heater increases (Grinshpun et al 2010). The virions moving close to the heater are expected to be inactivated much more efficiently than those moving further from the heater and closer to the wall.…”

“…In accordance to the approach developed in our earlier study (Grinshpun et al 2010), the characteristic exposure temperature was defined based on the following considerations:…”

“…Consequently, these studies involved microorganisms in aqueous media or on solid surfaces. Few investigations on heat-induced microbial inactivation have dealt with aerosolized biological particles-bacterial spores (Grinshpun et al 2010;Mullican et al 1971), vegetative cells (Jung et al 2009a;Lee and Lee 2006), or fungal spores (Jung et al 2009b). To our knowledge, no data are currently available on the inactivation of aerosolized viruses by their exposure to hot air flow.…”

Inactivation of Aerosolized Viruses in Continuous Air Flow with Axial Heating

“…The experimental facility and test design were described in detail in our earlier paper (Grinshpun et al 2010). The setup was operated inside a class II biosafety cabinet (Model 6TX, Baker Co., Inc., Sanford, ME).…”

“…The above definition assumes that all the viruses were exposed to the same air temperature during the same time interval, which is not the case in the presence of gradients of air temperature and velocity-longitudinally (y) and radially (x) (Figure 1). Unlike the confined thermal systems used for sterilizing food and liquids, a continuously heated air flow system cannot, in principle, maintain a single temperature because of continuous energy transfer (Grinshpun et al 2010;Jung et al 2009b). Consequently, an aerosol particle passing through the chamber is exposed to different temperatures along its trajectory.…”

“…Consequently, an aerosol particle passing through the chamber is exposed to different temperatures along its trajectory. In an axially heated flow, the radial (cross-sectional) gradient of air temperature is relatively high in a close proximity to the heater; it essentially diminishes as the distance to the heater increases (Grinshpun et al 2010). The virions moving close to the heater are expected to be inactivated much more efficiently than those moving further from the heater and closer to the wall.…”

“…In accordance to the approach developed in our earlier study (Grinshpun et al 2010), the characteristic exposure temperature was defined based on the following considerations:…”

“…Consequently, these studies involved microorganisms in aqueous media or on solid surfaces. Few investigations on heat-induced microbial inactivation have dealt with aerosolized biological particles-bacterial spores (Grinshpun et al 2010;Mullican et al 1971), vegetative cells (Jung et al 2009a;Lee and Lee 2006), or fungal spores (Jung et al 2009b). To our knowledge, no data are currently available on the inactivation of aerosolized viruses by their exposure to hot air flow.…”

Inactivation of Aerosolized Viruses in Continuous Air Flow with Axial Heating

Biological Aerosols

Disinfection of Microbial Aerosols