In colder regions most property owners battle with ice dams. Two circumstances combine to make an ice dam. First, snow melts on the part of the roof over the building interior (inside the perimeter of the outside walls) because heat and air that leak from the warm interior raise the roof temperature above the freezing temperature. Second, on the part of the roof covering the overhang (beyond the perimeter of the outside walls), the roof is cold and the runoff refreezes. The refrozen runoff forms a dam, further backing up melt water.
Good roof ventilation keeps the entire underside of the roof near outdoor air temperature, so snow on the roof isn't melted by interior heat escaping past poorly installed or inadequate attic insulation. Without melted water running down the roof, ice dams can't form on the cold eaves. Roof ventilation is a very useful component of most effective ice dam prevention strategies.
It can drip on the ceiling insulation or run down the underside of the deck to the connection between the roof and the walls. It then makes its way into the building in the form of damaging leaks. Melt water under the unmelted snow can decrease the friction between the snow and the roof and cause a snow slide, like an avalanche. Melt water often refreezes as icicles hanging from the gutters or edge of the roof. These icicles eventually break off when they get too heavy. Both snow slides and falling icicles endanger passersby.
There is little difference in temperature between the part of the roof inside the perimeter of the outside walls and the part covering the overhangs. Thus, melting and refreezing is minimized. Insulating to prevent heat leaks and sealing against air leaks between the inside of the building and the attic are the best ways to achieve a cold roof. Increasing the level of insulation from R-11 to R-38 in a 1000 square foot attic should cost about $500. Accumulated dollar savings for heating and cooling, beyond the cost of the installed insulation, should be more than $1000 in the Washington DC area. Costs to repair damage from a leak caused by an ice dam could easily exceed $5000. Ventilation of the attic may help to achieve a cold roof. Its primary purpose, though, is to prevent moisture from condensing in the attic on the underside of the roof and dripping down into the insulation. This moisture is in any warm air that leaks from the inside of the building. Sealing the air leaks is more effective than increasing the ventilation.
The membrane is usually placed from the edge of the roof up beyond where the walls intersect the roof. This membrane is installed when old shingles are replaced. If ice damming is a recurrent problem, heaters along the edge of the roof can be used to break up ice dams as they form. But these heaters use a lot of expensive electrical energy; they need to be used whenever it snows until air temperatures are about 45ºF.
Hammers, hatchets, ice picks or even salt used at the edge of a roof to attack ice dams and icicles do more harm than good and are not recommended. If snow is piling up to the point where the roof seems or sounds vulnerable to collapse, some snow can be removed but safety is the first concern. The object of snow removal from roofs is to reduce the snow load to safe levels, not to clean it off entirely. Regardless, there is danger of damage to the roof surface from using implements such as rakes or shovels. There are hazards to people who climb up to the roof on slippery ladders and stand on them. Walking on an already stressed roof may cause local failures in the structure. Snow removal from a roof is a risky proposition. Use a licensed contractor in most cases.
Nature eventually melts snow from roofs more cheaply and safely than artificial means. Best to let nature take its course and observe deficiencies in a particular roof, such as lack of insulation and unwanted air leakage paths from the interior space to the roof, so corrections can be made before the next emergency.