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4 Ways Bad Ducts Lead to Bad IAQ

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Indoor air quality (IAQ) is a big deal. It doesn’t get near as much attention as energy efficiency or green building programs, but it should be one of the highest priorities for anyone who lives in a home. It’s actually part of an even bigger deal called indoor environmental quality (IEQ), but I’m just going to focus on IAQ here as I show you four ways your ducts might be hurting your customers’ indoor air quality.

1. Leaky ducts pull in bad stuff and distribute it throughout the home


The photo above shows one example of a duct system that pulls in bad stuff and distributes it. I wrote about this case last year when one of the HERS rater companies we work with, E3 Innovate in Nashville, found this disconnected return duct in a nasty, vented crawl space. That’s bad enough by itself, but this one also had a dead possum lying close to that bad air vacuum cleaner. Even the best filtration system would be hard pressed to remove the putrefaction from that air.

Panned joist returns over moldy crawl spaces or basements are another easy way for bad air to get into a home.


Bad air can be pulled from the other side of the filter as well. Air handler cabinets, for one, are notoriously leaky. Filter housings and filters are often worse. Sometimes they have no cover, as you can see below.


Sometimes you may think you’ve got a great filter that’s doing its job, but inside the box lies an IAQ surprise, as shown below. This expensive media air cleaner is supposed to be supported by combs that hold the pleats apart but has suffered from a collapse. The resulting hole at the top serves as an easy bypass for the air, so little was actually getting filtered here.


2. Unbalanced duct leakage increases infiltration

But not all the the bad stuff happens in the return ducts, which are supposed to pull air from the house back to the unit to be conditioned and which run under negative pressure. Duct leakage on the supply side can create IAQ problems as well.

Say you have a system that pulls 1000 cfm of air from the house, sends it back to the system to get heated or cooled, and then puts 1000 cfm back into the supply ducts. Now imagine those supply ducts run in an unconditioned crawl space and leak some of their conditioned air. Of the 1000 cfm of air entering the supply ducts, let’s say only 800 cfm makes it all the way back to the house.

Simple arithmetic: If you add 800 (supply) and take away 1000 (return), you have a negative number. In this case, the house will experience negative pressure due to the unbalanced duct leakage. That negative pressure will result in the system trying to make up those 200 missing cfm of supply air with air that infiltrates from outside the house. It may be from the crawl space. It may be from the attached garage. It may be from the attic.

Somehow, some way, though, the house will get more air. And it may well be the kind of air you’d rather not breathe.

3. Leaky ducts or zone can cause backdrafting

Another way that your ducts can hurt the indoor air quality in your home is by contributing to backdrafting of a combustion appliance. When exhaust gases cannot go up a flue because the combustion appliance zone (CAZ) is under negative pressure, they go into the air in the home. When backdrafting, a combustion appliance like the natural draft water heater you see below is more likely to produce carbon monoxide. You don’t want that in your air.

The duct system can contribute by leaking on the return side in the CAZ, thus creating a negative pressure there. If that leakage combines with the air being pulled in for combustion by a furnace, as shown below, it may be enough to backdraft the water heater. If you want to increase the chances of backdrafting, throw a clothes dryer in the same room.


It could also be that closing the bedroom doors creates pressure imbalances within the house. If the house has a central return vent and the bedrooms have only supply vents, closing the bedroom doors will create a positive pressure in the bedrooms and a negative pressure in the part of the house where the central return vent is. If the central return vent is close enough to the CAZ, you may have a situation on your hands.

4. Leaky ducts may lead to poor humidity control

The final problem here is the bad air you get by starting unintentional biology experiments. One thing that molds needs to grow is water. Take that away, and your mold problems go away. Add enough water, and you’re almost guaranteed to get mold because the other ingredients—spores, a food source, air, and reasonable temperatures—will be there already.


A poor duct system can reduce moisture control. Many air conditioners already short cycle because they’re oversized. When return ducts pull in extra moisture from a damp crawl space or basement, the marginal moisture control of an oversized air conditioner may cross the threshold that leads to mold growth.

More than just a series of tubes

The late Senator Ted Stevens gained notoriety for describing the Internet as a “series of tubes.”  That metaphor may be a bit of a stretch, but the ducts that carry air in your HVAC system really are a series of tubes. Ideally, you want no leakage at all in them, and the folks who are members of the Ring 4 Club are getting really close to that goal. You also want ducts to be sized properly, installed well, and commissioned.

And here’s the thing. It’s not just because you want to save energy or have more comfortable customers. Those are great objectives, of course, but having good indoor air quality is a higher goal. I grew up with really bad asthma, so I know the importance of good IAQ. I’ve also learned a bit of building science over the past few years and know that all this stuff is interconnected.

A duct system is more than just a series of tubes. It’s a critical component in your customers’ indoor air quality. You’d be much better off installing minimum efficiency heating and air conditioning systems and then installing the best duct system you can. Your customers’ lungs and health will thank you, and you’ll still win on saving energy and making them more comfortable, too.

Allison Bailes, III, PhD
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Posted In: Building Performance, Residential Buildings

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