DIY Builds
DIY Builds
Photo: Omar Belattar
Foil-faced bubble wrap is a radiant barrier. It's not insulation. A radiant barrier reduces heat transfer by radiation and has two excellent applications in homes. Insulation reduces heat transfer by conduction through solid materials.
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When I wrote about my trip to the Southeast Building Conference in July, I mentioned how some products on display there really annoyed me because they’re either bad to the bone or overhyped. The main one in the latter category is foil-faced bubble wrap sold as insulation. Green Building Advisor recently wrote an article about foil-faced bubble wrap and did a balanced job of it. They presented the pros and cons and gave anecdotal evidence of this product having solved condensation problems. I’ll grant that foil-faced bubble wrap has its applications, as the GBA article proclaimed. I’ve just never seen it installed in a way that would allow the product to do what it does best – reduce radiant heat gain. First of all, let’s be clear. Foil-faced bubble wrap is a radiant barrier. It’s not insulation. A radiant barrier reduces heat transfer by radiation and has two excellent applications in homes. Insulation reduces heat transfer by conduction through solid materials. So, when I walked up to the bubble wrap booth and asked the guy what the R-value of it was, he immediately said 15.4. I told him, no, it’s R-1, and then he started talking about the thousands of dollars they’ve spent on testing. Pretty soon, he was telling me he didn’t have time to talk with me any more. Here’s my problem with his claim. When you quote an R-value for a material, you can’t include air spaces. To capture that, you’d be talking about the R-value of an assembly. The R-value for this material is about an R-1. What they’re trying to claim is the R-value for an assembly, including air gaps, and not just the R-value of the material. Nice try, guys, but no cigar. The problem here is that for a radiant barrier to work, it must have an air gap on one side or the other. If they staple this stuff to the underside of the rafters in an attic, it will greatly reduce heat gain in the attic, and the temperature will be about 20 degrees lower. That’s because there’s an air gap. The only place I’ve seen this stuff used is to wrap duct work. I’ve heard of it being used in above grade walls in Florida and on foundation walls of encapsulated crawl spaces, but the former wouldn’t be allowed in Georgia, and I just haven’t seen the latter here. For bubble wrap to be effective on ducts, the installers would have to put in spacers to keep the bubble wrap from being in contact with the ducts. Not once have I seen spacers on bubble-wrap insulated ducts. Since ducts require either R-6 or R-8 insulation, depending on location, building inspectors should start failing this application every time they see it. I mentioned above that radiant barriers have two excellent applications in homes, and those are in the attic and in windows, the two places where the most radiant heat gain occurs in a building. In an attic, follow these guidelines:
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Read More »Use it only in hot or mixed climates where you have significant cooling loads. It’s a waste of money in a cold climate. Install it along the roofline rather than on top of the flat ceiling. In new construction, use a sheathing material with a foil facing, such as LP TechShield or Georgia Pacific’s Thermostat plywood. In existing homes, there are numerous radiant barriers for retrofit, such as PolarPly or foil-faced bubble wrap. Make sure to leave an air gap. If you install a radiant barrier roof deck and then spray foam on it, you’ve wasted your money on the radiant barrier because there’s no air gap, and all the heat just conducts right through it. In windows, radiant barriers are called low-e coatings, but they work on exactly the same principle – by installing a material with a low emissivity between where the heat is coming from and where you don’t want it to go. Foil-faced bubble wrap does NOT work for this application. Well, I guess it could be used here – if you didn’t care about getting light or views through your windows. If you want to go a little deeper, you can read Martin Holladay’s article called Understanding R-Value or this Radiant Barrier Fact Sheet from Oak Ridge National Laboratory, which does a lot of good research on buildings. Update: Martin Holladay wrote another article about this stuff in 2014: Stay Away from Foil-Faced Bubble Wrap. Allison Bailes of Atlanta, Georgia, is a speaker, writer, building science consultant, and the founder of Energy Vanguard. He has a PhD in physics and writes the Energy Vanguard Blog. He is also writing a book on building science. You can follow him on Twitter at @EnergyVanguard.
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