The proper ventilation of attic areas is a critical design and performance consideration. If implemented correctly, proper
ventilation methods can help ensure the maximum service life of roof assembly materials, and can improve energy efficiency of
the building. The minimum amount of ventilation required is defined by the building codes for residential construction. In
addition, ventilation is recommended by shingle manufacturers to help ensure the performance of the roof materials.
Overlooking this consideration may result in the following problems:
Premature failure of the roofing system
Buckling of the roofing shingles due to deck movement
Rotting of wood members
Moisture accumulation in the deck and/or building insulation
Ice dam formation in cold weather
In cold climates, internal building moisture is often a cause of roofing system problems. Occupancy generated water vapor may
reach an unconditioned space and condense on cold surfaces. This may cause wood to rot in the roof framing, roof decking,
walls and ceilings. Proper ventilation helps to reduce the occurrence of many problems such as expansion/contraction of
decking and ice damming in cold, snowy climates. Ice dams are formed by the cyclical thawing of snow over the warmer
portions of the roof and re-freezing at the cold eave. Refer to ARMA’s Technical Bulletin “Protecting Against Damage from Ice
During the summer months, roof deck temperatures can significantly increase due to the sun’s energy. The heat from the deck
radiates into the attic space, and could reach the living space if the attic floor/ceiling is not well insulated. This will increase the
demand on the home’s cooling system and energy use. Additionally, it will accelerate the aging of asphalt roofing products. By
properly ventilating the underside of the roof deck, heat buildup and its related problems will be reduced.
Refer to ARMA’s Technical Bulletin “Attic Ventilation Best Practices for Steep Slope Asphalt Shingle Roof Systems.” For any given
home, the minimum amount of ventilation required by code is dependent on three primary factors: the size of the attic, the
placement of the vents and the airflow rating of the vents. When considering air movement, there are two categories of vents –
intake vents and exhaust vents. The optimal attic ventilation installation is a balanced combination of properly located, properly
sized intake and exhaust vents (and there are many types within each category).In some cases, a minimum net free ventilation
area equal to one square foot per 150 square feet of attic floor area must be designed and properly installed to provide proper
In other cases, ventilation can be at a ratio of 1 square foot ventilation per 300 square feet of attic floor area. Ventilation
manufacturers recommend that the free-flow ventilation be equally balanced between intake and exhaust vents regardless of
which ratio is used. Because eave and ridge venting provides continuous airflow along the entire roof peak and eave, instead of
localized as is the case with individual vents, it is generally viewed as the superior venting technique (see Figure A).
The manufacturers of ventilation systems and vapor retarders should be consulted for proper use of their products. It should be
noted that the trends continue toward higher energy conservation, air barriers, and generally tighter housing construction
methods. The code requirements are minimums, and as such, make proper ventilation an important consideration for
minimizing energy usage and optimizing roofing system performance. Standard ‘one size fits all’ solutions are not sufficient.