Aerosol decontamination and spatial separation using a free-space LED-based UV-C light curtain (preprint)

ABSTRACT

Background: The SARS-CoV-2 pandemic demonstrated the vulnerability of our societies to aerosol transmitted pathogens. With no less than 260mio known cases and >5mio deaths, SARS-CoV-2 is a global catastrophe leading to human and economic losses unprecedented in recent history. Thus, effective methods to limit the spread of aerosol transmitted pathogens are needed. Universal masking and curfew laws are effective but no permanent solution. Methods: A mass producible LED light source emitting homogeneous parallel UV-C light was used as a light-barrier to block the spread of infectious aerosols. In an aerosol test channel, Gram-negative and Gram-positive bacteria as well as coronavirus were nebulized and inactivation rates were determined. Findings: With air speeds of 0.1ms-1 an exposure time of 1s in the UV-C light is obtained. Reduction in CFU for E. coli was >3log10 and for S. aureus ~2.8log10. Plug-forming-units of the murine coronavirus (Mouse Hepatitis Virus, MHV) were reduced by about 3log10. Interpretation: The concept of a UV-C light barrier to ward off infectious aerosols if feasible and possible with a light element as described here. Coupled with sensor based activation/deactivation, such a technology could greatly reduce the transmission rates of aerosol transmitted pathogens while not disturbing natural human behaviour. This is an interesting technology allowing a new normal in societies after/with SARS-CoV-2.