REPOST BY JOSEPH W. LSTIBUREK, PH.D., P.ENG., FELLOW ASHRAE
https://images.magnetmail.net/images/clients/ASHRAE//attach/HVACR/Lstiburek_Building_Sciences_January_2019.pdf

Remember the good old days when we had filters right at the single central return that we could easily change (Photo 1)? We didn’t have to go to the furnace or the air conditioner. The filter was right there. Not having to go to the furnace or the air conditioner was a big deal for some folks because most furnaces and air conditioners were located in attics. They still are (Photo 2). People who live up north forget that basements were invented so that we would have a place to stash the furnaces.* Down south we don’t do basements. In Texas attics are called “Texas basements.” We don’t do basements in Florida either. It’s hard to dig a basement when you live next to a swamp or on a sandbar surrounded by water.

And, we didn’t make it easy to get into the attic. Attic hatches got their name because they were “hatches.” Sometimes there’s just a piece of plywood covering a hole hidden in a closet. And, of course, we never put stuff in a closet so to get to the hole in the ceiling we never had to move stuff. Servicing an air conditioner located in an attic was not a fun thing to do. So normal people—we call them civilians—did not make it a practice to go into attics. If you didn’t go into an attic you wouldn’t see what was what in an attic. Things change. “Filter grilles” days were numbered. Civilians began to be sold on the concept of having filters that actually filtered. The “bolder catcher” filter at the return grille wasn’t up to the task. Builders began to install real filters and those real filters had to be at the air handler. The air handler was in the attic. We had to make it easy to get into the attic. Easy solution. Pull down stairs. Civilians could now easily get into the attic to change a real filter at the air handler. Yup, things were going to end badly, especially in hot/ humid climates like south Texas and south Florida. We vent attics there. We shouldn’t, but we do.† Here is how venting attics works. You deliberately bring air from the outside into the attic through things called holes. Okay, we don’t call them holes. We call them vents. But they really are holes. Wait for it. The air outside in hot/humid climates is hot and humid. Yup, venting attics in hot/humid climates brings hot/humid air into attics. It is lucky for us that there is nothing cold in the attic that could sweat or condense hot/humid air. Oops. That is where we put supply air ductwork and air conditioners. Did you know that an air conditioner is a machine that makes things cold? Like air? Air that then is distributed by ductwork, making the ductwork cold. Cold air handlers and cold ducts in vented attics in hot/humid climates sweat. They have always sweated. Everyone who is not a civilian knows this. But if you don’t go into an attic very often you don’t see the condensed water. Well, now civilians are going into attics regularly and see the sweating. Many non-civilians when confronted by the civilians are behaving like Captain Renault: “we are shocked, shocked to find condensation going on in here.”‡

But there is more sweating. More about that later. We have to deal with something else first. We used to tape the joints of flex duct using aluminum tape. We used to tape the joints in duct board using aluminum tape. Now, we use mastic. Mastic makes for tighter ducts. We want tight ducts. We test ducts to make sure they are tight. We get tight ducts and we get them reliably because we use mastic. When flex duct sweats and gets wet it just gets wet; it doesn’t get moldy. When aluminum tape sweats and gets wet it just gets wet; it doesn’t get moldy. Mastic gets moldy. Worse. Most mastics are “white” in color so you can actually see the mold (Photo 3). Didn’t have a problem when the mastics were dark in color. OMG! Mold on mastic in a vented attic! A space that is outside the house. Call the CDC. We are all going to die. Save the children! We are not talking Ebola here. A little bit of mold in a part of the house that is outside is not a big deal. Inside? Different story. Then we have social media. You might have heard of the Internet. A civilian goes into the attic to change a filter and sees condensation on ductwork and mold on mastic and everyone in the community knows instantly and we have a crisis. If nobody notices there is no issue, but your “spidey sense” should be tingling. Why now? Why not a couple of years ago? Why not a decade ago? Why not two decades ago? I remember going into vented attics in south Florida in the late 1980s and noticed sweating ductwork and sweating air handlers. It was no big deal. Ah, there is more sweating today. Much more. And we did it to ourselves because we made things better. Yup, improving things is the cause of most problems. We added radiant barriers (Photo 4). We increased attic insulation levels. We began to enforce the sizing of air conditioners using ACCA Manual J. The radiant barriers made the attics colder particularly the ductwork and the air handler. Colder ductwork and colder air handlers increased sweating of ductwork and air handlers. Worse, the run times of the air conditioners, the duty cycles increased. The ductwork and air handlers stayed colder longer. Ductwork became cooling coils that dehumidified the air—don’t you just love it—ductwork becomes an active dehumidifier in the attic. Back in the day with short duty cycles and not so much sweating the condensate would have time to evaporate between run times. Repeated sweating followed by repeated drying was not much of an issue. Now, different story. Not every house in a hot/humid climate has a problem, but we have more houses with problems than we should have. So why add the radiant barrier? Great marketing by the manufacturers and you get a bunch of HERs points. Not bad for a couple of hundred bucks. Radiant barriers are all over south Texas. Not many in south Florida. Not that much of a thermal benefit in south Florida. Huh? Tile roofs are everywhere in south Florida (Photo 5). Tile roofs handle the radiation thing much better than asphalt shingle roofs. With tile roofs dominating south Florida we have “cool roof” technology at its best,not much of an improvement when we add a radiant barrier. So why increase attic insulation levels? Ah, just don’t go there. Just suck it up and accept the fact that we are going have even higher levels.

So why enforce ACCA Manual J? Back in the day we institutionalized “oversizing” of air conditioners. Didn’t matter that much because the latent to sensible ratio was small. The air conditioners didn’t have to have long run times to control interior humidities. So what did we do to the sensible load? Windows with low SHG ratios, compact fluorescent and LED lighting, higher levels of insulation, more efficient appliances and radiant barriers made the sensible load small. Very small. Let me point out something. Air conditioners are dehumidifiers, but they only dehumidify when they are running. Yup, they need to run.