Study Concludes Portable HEPA Filters Curb Indoor Fungi
ASHRAE Journal’s Official: SHOW DAILY
Monday, January 14, 2002 – Page 12
Exposure to airborne indoor fungi in residential environments can be reduced through use of portable high efficiency particulate air (HEPA) filters and regular maintenance of filter material and carpets, according to researchers at the IAQ 2001 conference.
“Our study showed a 70% reduction in airborne indoor fungal levels and a 38% reduction in particulate matter in homes fitted with portable HEPA filtration units,” C.D. Cheong said. “These results show that the operation of portable HEPA filtration units achieve effective outcomes in reducing levels of airborne indoor fungi. Outdoor sources remain the main contributor to indoor sources of fungi.”
Cheong presented a paper titles The Use of HEPA Air Filters to Control Airborne Indoor Fungiat the IAQ 2001 conference, Moisture, Microbes and Health Effects: Indoor Air Quality and Moisture in Buildings, sponsored by the Canadian Society of Heating, Refrigerating and Air-Conditioning Engineers in San Francisco.
The study involved asthmatic children between the ages of 6 and 11 from schools in Perth, Western Australia. Portable air filtration units fitted with HEPA filters were placed in the children’s bedrooms for 15 weeks. Homeowners were told to maintain their normal regular household cleaning practices during the study, including the maintenance (or lack of) of the carpets and interior surfaces of the homes.
In addition to the 70% reduction in fungal levels and 38% of particulate matter, a 53% decrease was reported in airborne outdoor fungal levels, Cheong said.
Past studies have indicated the temperature, relative humidity and suspended particulate matter are possible predictors of indoor fungal levels, influencing levels of airborne indoor fungi found indoors. Cheong said this study showed no strong or significant correlation between the air quality parameters and measured indoor fungal levels.
“Use of portable HEPA units, periodic maintenance of both filter material and capets and a general awareness of indoor air issues like ventilation and source control, could aid in reducing exposure to airborne indoor fungi in residential environments,” he said.
The authors recommend that future investigations of the efficiency and influence of portable air filters on indoor fungal composition and levels, maintenance or filter material and floor surfaces in the indoor environment should be taken into account.
In addition, issues such as accumulation of dirt, debris and microorganisms in the filter material and resuspension of airborne particulates and microbials from flooring need to be investigated.