How much is too much snow built up on a roof e sampark electricity bill payment


Snow loads vary across Alaska, depending mostly on where you live. For example, winter snow loads can reach as high as 300 pounds per square foot (psf) in Whittier, but be as little as 25 psf in northern Alaska. Many factors affect snow load, including the moisture content of the snow, seasonal accumulation and drifting.

The weight of snow depends on its moisture content, which will vary depending on the conditions. The moisture content of snow ranges from about 1 percent to about 33 percent (water weighs about 62 pounds per cubic foot). Compressed snow — even snow that simply accumulates over time, will weigh more than freshly fallen snow. Fallen snow also can pick up humidity from the air and increase in weight.

You determine weight by using a measurement called Snow Water Equivalent (converting inches of snow into inches of water by taking a cylindrical core sample of snow and melting it). You can find the daily SWE for different locations in the state, including Fairbanks, at the USDA Natural Resources Conservation Services website at On Wednesday, for example, the snow depth was 15 inches and the SWE was 1.8 inches. To calculate pounds psf, you multiply the SWE by a conversion factor of 5.2 (check out the formula here: That gives you a snow load of roughly 12.5 psf. Keep in mind that this number is designed only to provide an estimate for the region.

Current building code in the city of Fairbanks calls for roofs to withstand a minimum of 50 psf, but homes built before 1991 were required to carry 40 psf and older homes even less. Mobile homes can be built to carry just 20 psf. But keep in mind there is no building code outside the city limits. Roof snow loads can vary depending upon type of roof, roof slope, melting, and re-freezing of snow and ice, among other factors.

Sloped roofs that periodically shed snow load present benefits and risks. If snow slides safely onto open ground, there’s no problem. But if that snow hits a deck on the way down, its force is multiplied many times more than its resting weight and can shear off otherwise stable structures if they are not supported sufficiently. Or if snow slides onto a flat roof or other surface, its cumulative weight is magnified from than that of normal snowfall. Structures should be designed with overhangs or other features to offer sliding snow a safe path to the ground. The ability of chimneys, plumbing vents, or electrical services to withstand sliding snow should also be considered.

In addition, decks, sheds, greenhouses, campers and other structures built without permits or inspections may not be able to handle much if any load depending on the quality of the workmanship. An under-built roof structure also may be at risk for collapse from imbalanced loading. For example, if the snow slides off one side of the roof yet remains on the other, the roof must be able to withstand the forces working against the structure during a change in weight distribution.

How do you know if you have a problem? Well, if you’re not privy to the design specifications of your home, the safest route is to hire a structural engineer to inspect your home and do the math. An inspection also can reveal potential weak spots or places where your roof structure, deck or framing might fail. Consider how additions or modifications might affect your home’s ability to support snow. Wood tends to be flexible and can withstand a lot of force over time before it breaks. Eventually, if it is not built to the task, it can fail.

Clearing excess snow off your roof or deck is not usually necessary unless you are dealing with an older home, structures that are built to dubious specifications, or an extraordinary buildup of heavy snow. Clearing snow comes with its own risks — like falling off your roof. Also, the addition of your own weight on an already stressed roof can make matters worse. If you suspect a roof might collapse (for instance, you witness sagging or hear creaking), get down immediately.