The same convection force that makes a hot-air balloon rise can cause a house to have major comfort and energy problems.
Everyone knows that hot air rises and that cool air sinks. Convection: It’s a basic law of thermodynamics aptly demonstrated by a hot air balloon that ascends as it’s filled with heated air. When the air inside the balloon cools down and becomes denser, the balloon begins its journey back to earth.
Exfiltration + Infiltration = the Stack Effect
The connection between convection and home energy performance is known as the Stack Effect. In a house, this air movement phenomenon is most noticeable during cold winter months. Here’s how it works: Indoor air that’s been warmed by the heating system rises by convection to the upper areas of the house. Unfortunately, this warm air doesn’t stop moving when it gets to top floor’s ceiling. In a typical house, hundreds of gaps and cracks provide passageways for warm air to escape into the attic. Holes for recessed ceiling lights, gaps around a drop-down attic stairway and wall cavities used as electrical or plumbing chases are common leak locations. Interior air that leaks out of the house is called “exfiltration.”
Losing the air you’ve paid to heat is bad enough, but this escaping air creates negative pressure inside the house –a vacuum that causes air infiltration. Cold outside air is sucked into your living space through other cracks, gaps and openings. In the winter, cold air infiltration usually occurs in lower parts of the house –like the basement and/or crawl space. But air infiltration can also occur around window and door framing and around electrical outlets located in exterior walls.
Is the stack effect at work in your house? Check for these signs.
Symptoms of the Stack Effect at work in your house include cold drafts you can feel near exterior walls (especially around electrical outlets and window trim) and cold drafts in the basement. You may also notice that the floor surface directly above a basement or crawl space is uncomfortably cold during winter months. Up in the attic, evidence of air leakage and Stack Effect energy loss can often be found on the fiberglass insulation installed over the attic floor. Insulation installed near an air leak will often discolor from the dust deposited on the fine fibers by rising air.
The comfort problems caused by the Stack Effect also cause energy problems. With heated air leaving the house and cold air entering, your heating system has to work longer and harder to maintain comfortable interior temperatures. Dan Morrison, a former contractor who now works as the editor of Builder magazine, explains why the Stack Effect imposes such a high energy penalty on a “leaky” home : “During cold weather when the Stack Effect is strongest, heated air is constantly escaping, and it’s being replaced by an equal volume of cold outside air. Because the cycle continues 24/7, you’re going to be spending a lot of money to keep warm.”
Sealing air leaks short-circuits the Stack Effect.
The Stack Effect has three “drivers” that determine its magnitude: the overall height of your total living space (multi-story buildings tend to have stronger convection), the interior-exterior temperature difference (the larger the difference, the stronger the effect) and the amount of air leakage in the house. Since you can’t do anything about the first two drivers, it’s necessary to focus on the third: air leaks. Having your home professionally air sealed will effectively short-circuit the Stack Effect by dramatically reducing air exfiltration and infiltration. It’s especially important to seal attic air leaks, since this is where most warm air escapes in the winter. According to Dept. of Energy research, attic air sealing, when combined with an attic insulation upgrade, can cut your heating and cooling costs nearly in half.