Foam Insulation for Attic Spaces

Spray Polyurethane Foam Insulation can be used in two common ways to insulate your attic space and protect your South Carolina home from other weather and moisture related damages.

Traditional Building Science

Spray Foam Insulation in the Attic Floor (Vented Attic Spaces)

The method of use for spray foam in the attic is often dictated by the building science and design principles your architect and/or builder subscribes to. In a traditional vented attic, insulation is used on the attic floor to insulate the ceiling from the seasonal heat and/or cold. Spray foam is used where traditional fiberglass batts, or cellulose is used; between the floor joists. The rest if the attic is left un-insulated and highly vented through gable, soffit, and ridge vents in the roof structure. This type of engineered system is the most common throughout the US, but may not be the most effective.


New Technology Building Science

Spray Foam Insulation in the Attic Floor (Non-Vented Attic Spaces)

attic insulation using spray foam

In this application, considered the most effective, by most of the SPF industry, the foam is sprayed directly to the underside of the roof between the joists, down around the rim and into the soffit areas, on the gable wall ends, and effectively sealing off and insulating the entire attic space from any air infiltration.

The traditional practice of insulating the underside of the roof in the attic has raised much debate in the building industry because "standard" roofing and design techniques call for the attic to be ventilated in order to reduce moisture problems and heat build-up in the hot summer months.

However, a vented attic situation it will become approximately 130-degrees in the summer. There's no reason for your air-conditioning and vent-ductwork to have to work in that type of severe conditions. There is also opportunity for moisture to form due to condensation on these appliances.

By applying spray foam directly to the underside of the roof deck, it now insulates the attic space from the extreme heat that once radiated thorough the hot shingles sheathing and roof. The severe temperatures no longer exist in the attic. In short, the attic now becomes a "conditioned" space of the house that is just as comfortable as any other room in the home.

Most builders and designers will tell you that this system is no good because wood needs to breathe and that the shingles on your roof will now overheat, get too hot and curl off.

We have done a great deal of research on the “breathing wood” issue and have found that most furniture manufactures actually kiln dry wood before use. They claim that if any wood is permitted to "breathe" this adds to deterioration over time. Kiln dry wood, used in all furniture, contains a small amount of moisture. If that moisture continues to dry out you will start to see cracks and splits. They take extra precautions to make sure that wood is sealed completely. Wood must be totally sealed. Properly finished and maintained furniture will not have this problem. Perhaps this is why we paint our house, and our fences, and everything else. I put up a fence a few years ago, left it to breathe, and now it is falling down because it is rotten. So much for breathing wood…

I recently met with an ELK Premium Building Products rep at a trade show last year, and they claimed their shingles have no problems whatsoever being used over an un-vented roof deck. So much for curling shingles…

In a standard insulation system, ceiling insulation reduces the transfer of heat from the attic to the living space (in the summer). Attic temperatures can often approach 140F during the day. Most of this heat enters the attic space through a multi-step process. First, solar energy warms the shingles and sheathing. The hot sheathing then transfers heat to the rest of the attic through conduction, convection and radiant heat transfer. The 140F temperature of the underside roof surface drives the heat transfer process.

By insulating the roof surface with spray foam, the surface temperature exposed to the attic (the temperature driving the heat transfer) is reduced by as much as 40F. Both conduction and convection heat transfer are proportional to a temperature difference, so that heat transfer will be reduced proportional to a drop in surface temperature.

The benefits of including the attic in the insulated space are:

  • Duct leakage and heat loss/gain from ducts is much less of an issue.
  • Air sealing is easier in the roof that in the ceiling.
  • Dust and loose insulation are less likely to migrate down to the living space.
  • Tests show energy costs are lower when the attic is sealed.

Further information is available from ASHRAE (8700-527-4723) in a publication titled "Vented and Sealed Attics in Hot Climates"

spray foam for attic spaces

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