1 General

This section of the RCABC Roofing Practices Manual provides general information on the benefits, types of vents and BC Building Code Requirements for attic and roof space ventilation. The Reader is urged to consult all relevant codes governing construction design and practices in any given jurisdiction.

1.1 Benefits of Attic Ventilation

Attic Ventilation During Hot Weather
Unvented Attic Roof surfaces can reach temperatures in excess of 170° C. Radiant heat penetrates through roofing, increasing attic and living space temperatures.		Vented Attic Proper ventilation removes heat by causing air to move through the attic, keeping both the attic and living space cooler.
Unvented Attic Moisture rising up through living space condenses in the attic, producing moisture on wood framing, insulation and roofing.		Vented Attic Proper ventilation allows moisture to escape as fresh, dry air moves through the attic.

1.2 Types of Pitched Roof Attic Vents

Natural Air Flow Ventilators
Plastic Continuous Ridge Air Vent	Plastic Air Flow Vent
Plastic Air Flow Vents Acceptable plastic vents must conform to CSA - A93 -M82 (R 1992) or ICBO #4159. Vents must have a minimum 75 mm (3”) flange on the up-slope side and a minimum 50 mm (2”) flange on the remaining three sides. Continuous ridge air vents must provide a minimum of 50 mm (2”) of flashing flange to overlap roofing material on each side of the roof ridge.
Metal Air Flow Vents Acceptable metal vents must have a minimum 100 mm (4”) flange to receive roofing on all sides and a minimum vertical sealed height of 75 mm (3”). All seams are to be fully soldered or welded. Galvanized steel must be a minimum of 26 gauge and aluminum must be a minimum of 20 gauge. Ridge vents must provide a minimum of 50 mm (2”) of flashing flange to overlap roofing material on each side of the roof ridge.

1.3 Attic and Roof Space Ventilation

Requirements for Residential and Small Buildings (BC Building Code Section 9.19)

Continuous Ridge Vent and Soffit Ventilation	Gable End Vents and Soffit Ventilation
Where insulation is installed between ceilings and the underside of roof sheathing, space shall be provided between the insulation and roof sheathing, and vents shall be installed to permit the transfer of moisture from the space to the exterior. (See Section 9.19 BC Building Code) Vents shall be in conformance with CAN3-A93 natural ventilators for buildings and shall be designed to prevent the entry of rain, snow and insects.	Ceiling insulation shall not be installed in a manner that will restrict free flow of air though roof vents or through any portion of the attic or roof space. The unobstructed vent shall be not less than 1/300 of the insulated ceiling area. On roofs sloped less than 1:6 (2” in 12”), that are constructed with roof joists, the vent shall not be less than 1/150 of the insulated ceiling area.
Cathedral Ceiling Spaced Purlins provide air space Where each joist space is not separately vented, roof joist spaces shall be interconnected by installing purlins not less than 38 mm (1 1/2 ”) by 38 mm (1 1/2 ”) on top of the roof joists. Not less than 63 mm (2 1/2 ”) of space shall be provided between the top of the insulation and the underside of the roof sheathing.	Roof Air Vents and Soffit Ventilation Vents may be roof, eave or gable end type or any combination thereof, as long as adequate ventilation is provided. The vents must be distributed uniformly on opposite sides of the building. Not less than 25% of required vent openings shall be located at the top of the attic or roof space, and not less than 25% of the required openings shall be located at the bottom of the space. The lower portion of the mansard or gambrel style roofs does not need to be ventilated. The upper portion requires ventilation as noted above.

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