Infection Control Technologies for Building Design

HENDERSON HEADLINES INFECTION CONTROL TECHNOLOGIES FOR BUILDING DESIGN Authored by: Dustin Schafer | April 16, 2020 The recent spread of the pandemic coronavirus (COVID-19) has brought several new questions to the forefront with respect to the design and operation of the buildings in which we spend much of our time, specifically when it comes to infection control. Many of us are asking “how clean are our buildings, really?” and, “what can be done to control the spread of viruses in a high-density space?” Topics like surface cleaning and air purification practices that were once the sole domain of the healthcare industry are now top of mind in discussions about workplaces, restaurants, education facilities, retail spaces, and grocery stores. With this renewed interest comes a new market for many high-quality sanitation and air filtration products – but separating the valid claims from the noise can be difficult. In this article, we’ve summarized some of the more effective existing technologies for infection control in buildings. We’ll briefly discuss how each works along with some of their risks and benefits. There’s a variety of technologies that can play a role in reducing the potential for the spread of infection within a building, and as your partner, we at Henderson stand ready to help you select the correct technology to suit your specific application. HEPA Filtration A standard air HEPA filter looks and acts much like any air filter in that it captures but does not kill contaminants. The HEPA designation means that the filter assembly was designed and tested to capture 99.7% of particles in the air passing through it that are .3 microns in size. The .3-micron size represents the most difficult particle size to capture so the 99.7% capture rate actually represents the worst-case efficiency of the filter. For particles that are larger or smaller than .3 microns, the capture rate increases. Since most viruses are less than .3 microns, HEPA filters can be very effective in capturing and removing viruses from air streams, as long as they pass through the filter. However, because HEPA filters are typically installed in the ductwork and therefore must rely on the room airflow patterns to carry contaminants to the filter, small particles like viruses circulate in the room for an extended time before eventually making their way to the filter for capture. In general, while highly effective and reliable, an in-duct HEPA filter is more appropriate in preventing cross contamination between spaces than it is in guaranteeing removal of contaminants from a given space.