Over the past few months, I’ve taken a look at some critical issues for indoor air quality. Starting with the issue of how much time we spend indoors, I then wrote about kitchen ventilation, the panoply of indoor air pollutants, problems with filters in general and with . Now let’s take the next step: a look at what research has been done on high-MERV filters and what can be done to overcome I wrote about.
Article: by John Proctor, ASHRAE Journal, October 2012.
In this article, John Proctor summarized some of the results he and his colleagues have found from studying California homes. One of the concerns in their research for the California Energy Commission was homeowners changing out 1-inch-thick standard fiberglass filters with 1-inch-thick pleated filters.
The Air Conditioning Contractors of America (ACCA) protocols for HVAC design assume a pressure drop of 0.10 inches of water column (i.w.c.) across the filter. (Keep that number, 0.1 i.w.c., in mind as a reference point. I’ll be coming back to it.) If a system is designed with a standard filter for that pressure drop, the pressure drop with a pleated filter of the same size will most likely be higher.
In addition, poorly designed and installed duct systems already have external static pressures that are too high. The typical furnace or air handler is rated for 0.5 i.w.c. but many run much higher pressure. David Richardson of the National Comfort Institute says that in the testing they’ve done, the average system is running at about 0.82 i.w.c.
Result: In the California study, Proctor et al. found that the pressure drop across the filter in 34 HVAC systems was 0.28 i.w.c. That’s nearly three times what ACCA protocols assume. …
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